Treatment fluid

ABSTRACT

The present invention provides a treatment liquid for a semiconductor device, which has excellent temporal stability of residue removal performance as well as excellent anticorrosion performance for an object to be treated. The treatment liquid of an aspect of the present invention is a treatment liquid for a semiconductor device contains one or more hydroxylamine compounds selected from the group consisting of hydroxylamine and a hydroxylamine salt, an organic basic compound, an alcohol-based solvent, and a surfactant, in which a content of the alcohol-based solvent with respect to a total mass of the treatment liquid is 40% to 85% by mass, and a pH is 8 or higher.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a Continuation of PCT International Application No. PCT/JP2019/006981 filed on Feb. 25, 2019, which claims priority under 35 U.S.C. § 119(a) to Japanese Patent Application No. 2018-069565 filed on Mar. 30, 2018. The above application is hereby expressly incorporated by reference, in its entirety, into the present application.

BACKGROUND OF THE INVENTION 1. Field of the Invention

The present invention relates to a treatment liquid. In particular, the present invention relates to a treatment liquid which can be suitably used for the manufacture of a semiconductor device.

2. Description of the Related Art

Semiconductor devices such as charge-coupled devices (CCDs) and memories are manufactured by forming fine electronic circuit patterns on substrates using photolithography technology. Specifically, the semiconductor devices are manufactured by forming a resist film on a laminate that has a metal film serving as a wiring material, an etching stop layer, and an interlayer insulating layer on a substrate, and carrying out a photolithographic step and a dry etching step (for example, a plasma etching treatment).

Furthermore, nowadays, a metal material-based resist film (a so-called metal hard mask) such as TiN and AlOx has been studied as the resist film in order to realize further miniaturization of semiconductor devices. In a case where the metal hard mask is used as the resist film, a dry etching step (for example, a plasma etching treatment) is performed using the metal hard mask as a mask and a step of forming holes based on a pattern shape of the metal hard mask and exposing a surface of a metal film serving as a wiring film are usually performed.

Dry etching residues (in a case where a metal hard mask is used as a resist film, a large amount of metal components such as a titanium-based metal are included as the residual components, and on the other hand, in a case where a photoresist film is used, a large amount of organic components are included as the residual components) adhere to a substrate which has been subjected to a dry etching step. These residues are generally removed using a treatment liquid so as not to interfere with the next step.

For example, US2016/0122695A discloses a cleaning liquid for lithography, which contains hydroxylamine, at least one organic basic compound selected from the group consisting of a compound and a quaternary ammonium hydroxide, and water, and has a pH of 8 or more.

SUMMARY OF THE INVENTION

The present inventors have examined the cleaning liquid (treatment liquid) described in US2016/0122695A, and have thus found that performance thereof is likely to be significantly reduced after storage over time. That is, they have also found that it is necessary to improve the temporal stability of the residue removal performance of the treatment liquid.

Moreover, on the other hand, the treatment liquid has been required to have suppressed corrosion (anticorrosion performance) of wiring metals (which may be any of a metal, a metal nitride, an alloy, and the like; and may be, for example, W or Co used as a wiring metal, or a form containing such a metal) which may contain an object to be treated.

Therefore, an object of the present invention is to provide a treatment liquid for a semiconductor device, which has excellent temporal stability of residue removal performance as well as excellent anticorrosion performance for an object to be treated.

The present inventors have conducted intensive studies to solve the problems, and as a result, have found that the objects can be accomplished by the following configuration.

[1] A treatment liquid for a semiconductor device, comprising:

one or more hydroxylamine compounds selected from the group consisting of hydroxylamine and a hydroxylamine salt;

an organic basic compound;

an alcohol-based solvent; and

a surfactant,

in which a content of the alcohol-based solvent is 40% to 85% by mass with respect to a total mass of the treatment liquid, and

a pH is 8 or higher.

[2] The treatment liquid as described in [1],

in which a content of the hydroxylamine compound is 1% to 20% by mass with respect to the total mass of the treatment liquid.

[3] The treatment liquid as described in [1] or [2],

in which a mass ratio of a content of the hydroxylamine compound to a content of the surfactant is 1 to 1,000.

[4] The treatment liquid as described in any one of [1] to [3],

in which the organic basic compound includes one or more selected from the group consisting of tetramethylammonium hydroxide, tetrabutylammonium hydroxide, benzyltrimethylammonium hydroxide, tetrahydrofurfurylamine, N-(2-aminoethyl)piperazine, 1,8-diazabicyclo[5.4.0]-7-undecene, and 1,4-diazabicyclo[2.2.2]octane.

[5] The treatment liquid as described in any one of [1] to [4],

in which the organic basic compound contains a tertiary amine compound,

the tertiary amine compound contains a tertiary amino group other than a tertiary amino group contained in a nitrogen-containing non-aromatic ring, and

a content of the tertiary amine compound is 1 ppt by mass to 5 ppm by mass with respect to the total mass of the treatment liquid.

[6] The treatment liquid as described in any one of [1] to [5],

in which a mass ratio of a content of the organic basic compound to a content of the surfactant is 1 to 150.

[7] The treatment liquid as described in any one of [1] to [6],

in which the surfactant is a cationic surfactant.

[8] The treatment liquid as described in [7],

in which the cationic surfactant contains a quaternary nitrogen atom.

[9] The treatment liquid as described in any one of [1] to [7],

in which the surfactant contains one or more selected from the group consisting of cetyltrimethylammonium bromide, cetylpyridinium chloride, benzethonium chloride, chlorhexidine dihydrochloride, distearyldimethylammonium chloride, benzalkonium chloride, dequalinium chloride, dodecyltrimethylammonium chloride, octadecylamine hydrochloride, and dodecylpyridinium chloride.

[10] The treatment liquid as described in any one of [1] to [9],

in which a content of the surfactant is 1 ppm by mass to 0.5% by mass with respect to the total mass of the treatment liquid.

[11] The treatment liquid as described in any one of [1] to [10],

in which the alcohol-based solvent contains an alkoxy group.

[12] The treatment liquid as described in any one of [1] to [10],

in which the alcohol-based solvent contains one or more selected from the group consisting of 3-methoxy-3-methyl 1-butanol, furfuryl alcohol, glycerin, 2-methyl-2,4-pentanediol, ethylene glycol, 1,2-propanediol, ethylene glycol monoethyl ether, ethylene glycol monobutyl ether, diethylene glycol monomethyl ether, diethylene glycol monoethyl ether, and dipropylene glycol monomethyl ether.

[13] The treatment liquid as described in any one of [1] to [12], further comprising an alkyl halide compound,

in which a content of the alkyl halide compound is 1 ppt by mass to 5 ppm by mass with respect to the total mass of the treatment liquid.

[14] The treatment liquid as described in any one of [1] to [13], further comprising a reducing agent.

[15] The treatment liquid as described in [14],

in which the reducing agent is one or more reducing agents selected from the group consisting of catechol and a derivative thereof, and a mercaptan compound.

[16] The treatment liquid as described in any one of [1] to [15], further comprising acetic acid,

in which a content of the acetic acid is 1 ppt by mass to 0.1% by mass with respect to the total mass of the treatment liquid.

[17] The treatment liquid as described in any one of [1] to [16], further comprising another organic acid other than acetic acid.

[18] The treatment liquid as described in any one of [1] to [17], further comprising metal-containing particles,

in which the metal-containing particle contains one or more metal components selected from the group consisting of Na, Ca, Fe, and Cr,

a particle diameter of the metal-containing particle is 0.02 to 0.05 μm, and

a content of the metal-containing particles is 10 ppt by mass to 10 ppb by mass with respect to the total mass of the treatment liquid.

[19] The treatment liquid as described in any one of [1] to [18], used as a cleaning liquid for removing etching residues, a solution for removing a resist film used for pattern formation, or a cleaning liquid for removing residues from a substrate after chemical mechanical polishing.

[20] The treatment liquid as described in any one of [1] to [19], used for a treatment of a substrate having a metal layer containing one or more selected from the group consisting of W and Co.

According to the present invention, it is possible to provide a treatment liquid for a semiconductor device, which has excellent temporal stability of residue removal performance as well as excellent anticorrosion performance for an object to be treated.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic cross-sectional view showing an example of a laminate which can be applied to a substrate cleaning method using a treatment liquid of an embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Hereinafter, the present invention will be described in detail.

The description of the constituents described below is sometimes made based on representative embodiments of the present invention, but the present invention is not limited to such embodiments.

In addition, in the present specification, a numerical value range expressed using “to” means a range that includes the preceding and succeeding numerical values of “to” as the lower limit value and the upper limit value, respectively.

Moreover, in the present invention, a reference to “preparation” is meant to encompass delivering a predetermined material by purchases or the like, in addition to comprising specific materials by synthesis, combination, or the like.

Incidentally, in the present invention, “ppm” means “parts-per-million (10⁻⁶)”, “ppb” means “parts-per-billion (10⁻⁹)”, “ppt” means “parts-per-trillion (10⁻¹²)”, and “ppq” means “parts-per-quadrillion (10⁻¹⁵)”.

Moreover, in the present invention, 1 Å (angstrom) corresponds to 0.1 nm.

In addition, in the notation of a group (atomic group) in the present invention, in a case where the group is noted without specifying whether it is substituted or unsubstituted, the group includes both a group having no substituent and a group having a substituent within a range not interfering with the effects of the present invention. For example, a “hydrocarbon group” includes not only a hydrocarbon group having no substituent (an unsubstituted hydrocarbon group) but also a hydrocarbon group having a substituent (a substituted hydrocarbon group). This also applies to each of compounds.

In the present specification, the pH of the treatment liquid is a value measured by F-51 (trade name) manufactured by Horiba Ltd. at room temperature (25° C.).

In addition, a “radiation” in the present invention means, for example, a bright line spectrum of a mercury lamp, far ultraviolet rays typified by an excimer laser, extreme ultraviolet rays (EUV light), X-rays, electron beams, or the like. Incidentally, in the present invention, light means actinic rays or radiation. Unless otherwise specified, “exposure” in the present invention includes not only exposure with a mercury lamp, far ultraviolet rays typified by an excimer laser, X-rays, EUV light, or the like but also writing by particle rays such as electron beams and ion beams.

Treatment Liquid

The treatment liquid of an embodiment of the present invention is

a treatment liquid for a semiconductor device, containing

one or more hydroxylamine compounds selected from the group consisting of hydroxylamine and a hydroxylamine salt,

an organic basic compound,

an alcohol-based solvent, and

a surfactant,

in which a content of the alcohol-based solvent is 40% to 85% by mass with respect to the total mass of the treatment liquid, and

a pH is 8 or higher.

By allowing the treatment liquid of the embodiment of the present invention to have the above-mentioned configuration, the temporal stability of the residue removal performance is excellent and the anticorrosion performance for an object to be treated is excellent.

A reason therefor is not clear in detail, but is considered to be as follows by the present inventors.

That is, the present inventors consider that a predetermined amount of an alcohol content in the treatment liquid keeps the residue removal performance of the treatment liquid above a certain level, and suppresses a temporal deterioration of the residue removal performance of the treatment liquid due to the decomposition of the hydroxylamine. They consider that by incorporation of a surfactant, the anticorrosion performance for an object to be treated (in particular, a metal layer including W or Co) is improved. In addition, the present inventors consider that the residue removal performance of the treatment liquid is also improved by setting a pH to be above a predetermined value.

Moreover, the treatment liquid of the embodiment of the present invention has an excellent defect suppression property, which enables the suppression of generation of defects in the object to be treated.

Hereinafter, the respective components included in the treatment liquid of the embodiment of the present invention will be described.

Hydroxylamine Compound

The treatment liquid of the embodiment of the present invention contains at least one or more hydroxylamine compounds selected from the group consisting of hydroxylamine and a hydroxylamine salt. The hydroxylamine compound has a function of accelerating decomposition and solubilization of the residues.

Here, the “hydroxylamine” with regard to the hydroxylamine compound of the treatment liquid of the embodiment of the present invention refers to a hydroxylamine compound in a broad sense including a substituted or unsubstituted alkylhydroxylamine, and the like, any of which can be used to obtain the effects of the present invention.

The hydroxylamine compound is not particularly limited, but preferred aspects thereof include unsubstituted hydroxylamine, a hydroxylamine derivative, and salts thereof.

The hydroxylamine derivative is not particularly limited, but examples thereof include O-methylhydroxylamine, O-ethylhydroxylamine, N-methylhydroxylamine, N,N-dimethylhydroxylamine, N,O-dimethylhydroxylamine, N-ethylhydroxylamine, N,N-diethylhydroxylamine, N,O-diethylhydroxylamine, O,N,N-trimethylhydroxylamine, N,N-dicarboxyethylhydroxylamine, and N,N-disulfoethylhydroxylamine.

The salt of the unsubstituted hydroxylamine or the hydroxylamine derivative is preferably an inorganic acid salt or organic acid salt of the above-mentioned unsubstituted hydroxylamine or hydroxylamine derivative, more preferably a salt of an inorganic acid formed by bonding a non-metal atom such as Cl, S, N, and P to a hydrogen atom, and still more preferably a salt of an acid thereof with any acid of hydrochloric acid, sulfuric acid, or nitric acid. Among those, hydroxylamine nitrate, hydroxylamine sulfate, hydroxylamine hydrochloride, hydroxylamine phosphate, N,N-diethylhydroxylamine sulfate, N,N-diethylhydroxylamine nitrate, or a mixture thereof is preferable.

In addition, organic acid salts of the above-mentioned unsubstituted hydroxylamine or hydroxylamine derivative can also be used, and examples thereof include hydroxylammonium citrate, hydroxylammonium oxalate, and hydroxylammonium fluoride.

Among those, the hydroxylamine or the hydroxylamine sulfate is preferable, and from the viewpoint that the defect suppression property and the temporal stability of the treatment liquid are more excellent, the hydroxylamine is preferable.

The content of the hydroxylamine compound is, for example, 0.1% to 30% by mass with respect to the total mass of the treatment liquid.

Among those, the content of the hydroxylamine compound is preferably 1% by mass or more, more preferably 3% by mass or more, and still more preferably 6% by mass or more with respect to the total mass of the treatment liquid, from the viewpoint that the residue removal property and the defect suppression property of the treatment liquid are more excellent.

In addition, the content of the hydroxylamine compound is preferably 20% by mass or less, more preferably 15% by mass or less, and still more preferably 12% by mass or less with respect to the total mass of the treatment liquid, from the viewpoint that the anticorrosion property is more excellent.

The hydroxylamine compounds may be used singly or in combination of two or more kinds thereof. In a case where the two or more kinds of the hydroxylamine compounds are used, a total content thereof is preferably within the range.

In addition, the content of the hydroxylamine compound with respect to the content of a surfactant which will be described later is preferably 1 or more, more preferably 10 or more, still more preferably 80 or more, and especially preferably 120 or more in terms of a mass ratio (the content of the hydroxylamine compound/the content of the surfactant) from the viewpoint that the residue removal property and the defect suppression property are more excellent.

The mass ratio is preferably 10,000 or less, more preferably 2,500 or less, and still more preferably 1,000 or less from the viewpoint that the residue removal property, the defect suppression property, the anticorrosion property, and the temporal stability of the treatment liquid are more excellent.

Organic Basic Compound

The treatment liquid of the embodiment of the present invention further includes an organic basic compound in addition to the above-mentioned components.

Furthermore, the organic basic compound as mentioned herein is a compound which is different from the above-mentioned hydroxylamine compound. That is, the hydroxyamine compound is not included in the organic basic compound.

As the organic basic compound, at least one selected from the group consisting of amine compounds different from the hydroxylamine compound, and a quaternary ammonium hydroxide salt is preferable.

In addition, as the organic basic compound, a cyclic compound (compound having a cyclic structure) is preferable. Examples of the cyclic compound include an amine compound having a cyclic structure which will be described later.

As the amine compound, an amine compound having a cyclic structure is preferable from the viewpoint that it can more effectively suppress the corrosion of a metal layer (preferably a metal layer including W and/or Co) on the substrate while ensuring residue removal performance.

In the amine compound having a cyclic structure, the amino group may be present in either the cyclic structure or outside the cyclic structure, or may be present in both. It should be noted that in a case where the amino group is a tertiary amino group, it is also preferable that the tertiary amino group is present in the cyclic structure and the cyclic structure is a non-aromatic cyclic structure (nitrogen-containing non-aromatic ring).

Examples of the amine compound include tetrahydrofurfurylamine, N-(2-aminoethyl)piperazine, 1,8-diazabicyclo[5.4.0]-7-undecene, 1,4-diazabicyclo[2.2.2]octane, hydroxyethylpiperazine, piperazine, 2-methylpiperazine, trans-2,5-dimethylpiperazine, cis-2,6-dimethylpiperazine, 2-piperidinemethanol, cyclohexylamine, 1,5-diazabicyclo[4,3,0]-5-nonene, diethylenetriamine, triethylenetetramine, and tetraethylenepentamine.

Among those, tetrahydrofurfurylamine, N-(2-aminoethyl)piperazine, 1,8-diazabicyclo[5.4.0]-7-undecene, or 1,4-diazabicyclo[2.2.2]octane is preferable as the amine compound from the viewpoint of more effectively suppressing the corrosion of a metal layer (preferably a metal layer including Co or a Co alloy) on a substrate while ensuring the residue removal performance.

The molecular weight of the amine compound is preferably 50 to 500, more preferably 75 to 400, and still more preferably 100 to 300.

Tertiary Amine Compound

It is also preferable that the treatment liquid of the embodiment of the present invention contains a tertiary amine compound as the amine compound. The tertiary amine compound is a compound having a tertiary amino group. It should be noted that the tertiary amino group contained in the tertiary amine compound is preferably a tertiary amino group other than a tertiary amino group contained in the nitrogen-containing non-aromatic ring. For example, N-(2-aminoethyl)piperazine is a compound which is not contained in the tertiary amine compound.

Furthermore, the tertiary amine compound may have a tertiary amino group contained in the nitrogen-containing non-aromatic ring, and a tertiary amino group not contained in the nitrogen-containing non-aromatic ring.

In a case where the treatment liquid contains a tertiary amine compound, it is also preferable that the treatment liquid further contains an organic basic compound other than the tertiary amine compound.

Examples of the tertiary amine compound include trimethylamine, pyridine, N,N-dimethyl-2-[2-[4-[2,4,4-trimethylpentan-2-yl)phenoxy]ethoxy]ethanamine, dimethylstearylamine, and 4-amino-2-methylquinoline.

The content of the tertiary amine compound is preferably 1 ppt by mass to 5 ppm by mass, more preferably 5 ppt by mass to 100 ppb by mass, and still more preferably 50 ppt by mass to 100 ppb by mass with respect to the total mass of the treatment liquid, from the viewpoint where the defect suppression property is more excellent.

Quaternary Ammonium Hydroxide Salt

Examples of the quaternary ammonium hydroxide salt include a compound represented by Formula (a1).

In Formula (a1), R^(a1) to R^(a4) each independently represent an alkyl group having 1 to 16 carbon atoms, an aryl group having 6 to 16 carbon atoms, an aralkyl group having 7 to 16 carbon atoms, or a hydroxyalkyl group having 1 to 16 carbon atoms. At least two of R^(a1), . . . , or R^(a4) may be bonded to each other to form a cyclic structure, and in particular, at least one of a combination of R^(a1) and R^(a2) or a combination of R^(a3) and R^(a4) may be bonded to each other to form a cyclic structure.

Among the compounds represented by Formula (a1), at least one selected from the group consisting of tetramethylammonium hydroxide, benzyltrimethylammonium hydroxide, tetrabutylammonium hydroxide, tetraethylammonium hydroxide, tetrapropylammonium hydroxide, methyltripropylammonium hydroxide, methyltributylammonium hydroxide, ethyltrimethylammonium hydroxide, dimethyldiethylammonium hydroxide, hexadecyltrimethylammonium hydroxide, (2-hydroxyethyl)trimethylammonium hydroxide, and spiro-(1,1′)-bipyrrolidinium hydroxide is preferable from the viewpoint of easy availability. Among those, tetramethylammonium hydroxide, tetrabutylammonium hydroxide, or benzyltrimethylammonium hydroxide is more preferable.

The molecular weight of the quaternary ammonium hydroxide salt is preferably 90 to 400, more preferably 90 to 300, and still more preferably 90 to 260.

The organic basic compounds may be used singly or in combination of two or more kinds thereof.

The content of the organic basic compound (a total content in a case where two or more kinds of the organic basic compounds are used; for example, in a case where the treatment liquid contains the above-mentioned tertiary amine compound and an organic basic compound other than the tertiary amine compound, a total content thereof) is, for example, 1 ppt by mass to 20% by mass, preferably 0.1% to 20% by mass, more preferably 0.5% to 5% by mass, and still more preferably 0.5% to 1.5% by mass with respect to the total mass of the treatment liquid.

In addition, the content of the organic basic compound with respect to the content of the surfactant which will be described later is preferably 1 to 150, more preferably 5 to 125, and still more preferably 5 or more and less than 118 in terms of a mass ratio (the content of the organic basic compound/the content of the surfactant) from the viewpoint that the residue removal property, the defect suppression property, the anticorrosion property, and the temporal stability are more excellent.

Surfactant

The treatment liquid of the embodiment of the present invention further contains a surfactant, in addition to the above-mentioned components.

The type of the surfactant is not particularly limited, a known surfactant can be used, and examples thereof include an ionic surfactant (for example, an anionic surfactant, a cationic surfactant, and an amphoteric surfactant), a nonionic surfactant (for example, a nonionic surfactant, a silicone-based surfactant, and a fluorine-based surfactant).

Examples of the anionic surfactant include aromatic sulfonic acid-based surfactants such as alkylbenzene sulfonates (dodecylbenzene sulfonic acid and the like) and alkyldiphenyl ether sulfonates (dodecyldiphenyl oxide sulfonate and the like), monosoap-based anionic surfactants, ether sulfate-based surfactants, phosphate-based surfactants, and carboxylic acid-based surfactants.

Examples of the cationic surfactant include amine salts (alkylamine salts such as an octadecylamine salt, a chlorhexidine salt, and the like, preferably hydrochlorides such as chlorhexidine dihydrochloride and octadecylamine hydrochloride), pyridinium salts (preferably halide salts such as cetylpyridinium chloride, dodecylpyridinium chloride, and dequalinium chloride), and quaternary ammonium salts (preferably halide salts, preferably having a molecular weight of 260 or more, and more preferably having a molecular weight of more than 260, such as benzalkonium chloride, cetyltrimethylammonium bromide, benzethonium chloride, distearyldimethylammonium chloride, and dodecyltrimethylammonium chloride).

Examples of the amphoteric surfactant include alkyl betaine-based surfactants (2-alkyl-n-carboxymethyl-n-hydroxyethyl imidazolinium betaine and the like), amine oxide-based surfactants, and fatty acid amide propyl betaines (cocamidopropyl betaine and lauramidopropyl betaine).

Examples of the nonionic surfactant include sugar ester-based surfactants such as sorbitan fatty acid ester and polyoxyethylene sorbitan fatty acid ester, alkylglycoside-based surfactants such as lauryl glucoside, fatty acid ester-based surfactants such as polyoxyethylene resin acid ester and polyoxyethylene fatty acid diethyl, and ether-based surfactants such as polyoxyethylene alkyl ethers (polyoxyethylene lauryl ether and the like), polyoxyethylene alkylphenyl ethers (octylphenol ethoxylate and the like), and polyoxyethylene/polypropylene glycol.

Among those, as the surfactant, the cationic surfactant is preferable. Further, the cationic surfactant preferably contains a quaternary nitrogen atom. The quaternary nitrogen atom is contained in, for example, a quaternary ammonium salt or a pyridinium salt. It should be noted that the cationic surfactant containing a quaternary nitrogen atom is preferably different from the quaternary ammonium hydroxide salt (for example, the compound represented by Formula (a1)) mentioned in the description of the organic basic compound.

From the viewpoint that the defect suppression property, the residue removal property, and the temporal stability of the treatment liquid are more excellent, the lower limit of the content of the surfactant is preferably 1 ppm by mass or more, more preferably 85 ppm by mass or more, still more preferably 0.01% by mass or more, and particularly preferably 0.05% by mass or more with respect to the total mass of the treatment liquid. The upper limit is preferably 2% by mass or less, more preferably 1% by mass or less, and still more preferably 0.5% by mass or less.

Furthermore, it is also preferable that the content of the surfactant satisfies preferred ranges of the mass ratio of the content of the hydroxylamine compound to the content of the surfactant, and/or the mass ratio of the content of the organic basic compound to the content of the surfactant, as described above.

The surfactants may be used singly or in combination of two or more kinds thereof. In a case where the two or more kinds of the hydroxylamine compounds are used, a total content thereof is preferably within the range.

Alcohol-Based Solvent

The treatment liquid of the embodiment of the present invention further contains an alcohol-based solvent, in addition to the above-mentioned components.

The alcohol-based solvent is preferably a water-soluble alcohol-based solvent.

Examples of the alcohol-based solvent include an alkane diol, an alkylene glycol, alkoxyalcohol, a saturated aliphatic monohydric alcohol, an unsaturated non-aromatic monohydric alcohol, and a trihydric or higher alcohol.

Examples of the alkanediol include glycol, 2-methyl-1,3-propanediol, 1,2-propanediol, 1,3-propanediol (1,3-dihydroxypropane), 2-methyl-2,4-pentanediol, 2,2-dimethyl-1,3-hexanediol, 1,4-butanediol (1,4-dihydroxybutane), 1,3-butanediol, 1,2-butanediol, 2,3-butanediol, 2,5-dihydroxy-2,5-dimethylhexane, pinacol, and alkylene glycol.

Examples of the alkylene glycol include ethylene glycol, propylene glycol, diethylene glycol, dipropylene glycol, triethylene glycol, and tetraethylene glycol.

Examples of the alkoxyalcohol include 3-methoxy-3-methyl-1-butanol, 3-methoxy-1-butanol, 3-methoxy-3-methylbutanol, 1-methoxy-2-butanol, and glycol monoether.

Examples of the glycol monoether include ethylene glycol monomethyl ether, ethylene glycol monoethyl ether, ethylene glycol mono-n-propyl ether, ethylene glycol monoisopropyl ether, ethylene glycol monobutyl ether, diethylene glycol monomethyl ether, diethylene glycol monoethyl ether, diethylene glycol monobutyl ether, triethylene glycol monomethyl ether, triethylene glycol monoethyl ether, triethylene glycol monobutyl ether, 1-methoxy-2-propanol, 2-methoxy-1-propanol, 1-ethoxy-2-propanol, 2-ethoxy-1-propanol, propylene glycol mono-n-propyl ether, dipropylene glycol monomethyl ether, dipropylene glycol monoethyl ether, dipropylene glycol mono-n-propyl ether, tripropylene glycol monoethyl ether, tripropylene glycol monomethyl ether, ethylene glycol monobenzyl ether, and diethylene glycol monobenzyl ether.

Examples of the saturated aliphatic monohydric alcohol include methanol, ethanol, n-propyl alcohol, isopropyl alcohol, 1-butanol, 2-butanol, isobutyl alcohol, tert-butyl alcohol, 2-pentanol, t-pentyl alcohol, and 1-hexanol.

Examples of the unsaturated non-aromatic monohydric alcohol include allyl alcohol, propargyl alcohol, 2-butenyl alcohol, 3-butenyl alcohol, and 4-penten-2-ol.

Examples of the low-molecular-weight alcohol including a ring structure include tetrahydrofurfuryl alcohol, furfuryl alcohol, and 1,3-cyclopentanediol.

Examples of the trihydric or higher alcohol include glycerin.

Among those, the alcohol-based solvent is preferably an alkoxyalcohol containing an alkoxy group. The alkoxy group is preferably an alkoxy group having 1 to 6 carbon atoms, such as a methoxy group, an ethoxy group, a propoxy group, and a butoxy group.

The molecular weight of the alcohol-based solvent is preferably 32 to 250, more preferably 40 to 200, and still more preferably 50 to 150.

The content of the alcohol-based solvent is 40% to 85% by mass with respect to the total mass of the treatment liquid, and from the viewpoint that the anticorrosion property and the temporal stability are more excellent, the content is preferably 50% by mass or more, and still more preferably 60% by mass or more. The content is preferably 80% by mass or less, and more preferably 70% by mass or less from the viewpoint that the defect suppression property and the residue removal property are more excellent.

The alcohol-based solvents may be used singly or in combination of two or more kinds thereof. In a case where the two or more kinds of the hydroxylamine compounds are used, a total content thereof is preferably within the range.

Alkyl Halide Compound

The treatment liquid of the embodiment of the present invention preferably further contains an alkyl halide compound, in addition to the above-mentioned components.

By incorporating the alkyl halide compound, the defect suppression property of the treatment liquid is more excellent. The alkyl halide compound is not limited as long as it has an alkyl halide group.

Among those, the number of halogen atoms (preferably chlorine atoms) contained in the alkyl halide compound is preferably 1 to 10, and more preferably 1 or 2. The alkyl halide compound preferably has a hydrocarbon group except for the halogen atom portion.

The content of the alkyl halide compound is preferably 1 ppt by mass to 5 ppm by mass, and more preferably 50 ppt by mass to 100 ppb by mass with respect to the total mass of the treatment liquid, from the viewpoint that the defect suppression property is more excellent.

Reducing Agent

The treatment liquid of the embodiment of the present invention preferably further contains a reducing agent, in addition to the above-mentioned components.

By incorporating the reducing agent, the residue removal property and the temporal stability of the treatment liquid are more excellent.

In addition, the reducing agent does not include a hydroxylamine compound.

The reducing agent is preferably a reducing substance such as a compound having an OH group or a CHO group, or a compound containing a sulfur atom. The reducing agent has an oxidizing action and has a function of oxidizing OH⁻ ions, dissolved oxygen, and the like which cause decomposition of the hydroxylamine compound.

Examples of the reducing agent include a compound represented by (B) below.

In Formula (B), R^(1B) to R^(5B) each independently represent a hydrogen atom, a hydroxyl group, or a hydrocarbon group which may have a heteroatom. Further, in a case where R^(1B) to R^(5B) each have a hydrocarbon group which may have a heteroatom, the hydrocarbon group may have a substituent.

In Formula (B), examples of the hydrocarbon group represented by each of R^(1B) to R^(5B) which may have a heteroatom include a hydrocarbon group and a hydrocarbon group having a heteroatom.

Examples of the hydrocarbon group represented by each of R^(1B) to R^(5B) include an alkyl group (preferably having 1 to 12 carbon atoms, and more preferably having 1 to 6 carbon atoms) and an alkenyl group (preferably having 2 to 12 carbon atoms, and more preferably having 2 to 6 carbon atoms), an alkynyl group (preferably having 2 to 12 carbon atoms, and more preferably having 2 to 6 carbon atoms), an aryl group (preferably having 6 to 22 carbon atoms, more preferably having 6 to 14 carbon atoms, and still more preferably having 6 to 10 carbon atoms), and an aralkyl group (preferably having 7 to 23 carbon atoms, more preferably having 7 to 15 carbon atoms, and still more preferably having 7 to 11 carbon atoms).

In addition, examples of the hydrocarbon group having a heteroatom, represented by each of R^(1B) to R^(5B), include the hydrocarbon group in which —CH₂— is substituted with any one selected from the group consisting of —O—, —S—, —CO—, —SO₂—, and —NR^(a)—, or a divalent group formed by combination of a plurality of these groups. R^(a) represents a hydrogen atom or a hydrocarbon group having 1 to 20 carbon atoms (preferably an alkyl group having 1 to 5 carbon atoms).

Moreover, examples of the substituent include a hydroxyl group, a carboxyl group, or a substituted or unsubstituted amino group (as the substituent, an alkyl group having 1 to 6 carbon atoms is preferable, and an alkyl group having 1 to 3 carbon atoms is more preferable).

The compound represented by Formula (B) preferably has two or more hydroxyl groups, and more preferably has two or three or more hydroxyl groups. The position at which the hydroxyl group is substituted is not particularly limited, but among these, R^(1B) and/or R^(2B) is preferable.

Examples of the compound represented by Formula (B) include catechol, resorcinol, isoeugenol, o-methoxyphenol, 4,4′-dihydroxyphenyl-2,2-propane, isoamyl salicylate, benzyl salicylate, methyl salicylate, and 2,6-di-t-butyl-p-cresol.

Among those, catechol is preferable as the compound represented by Formula (B).

Moreover, a catechol derivative is also preferable as the reducing agent.

Examples of the catechol derivative include dopamine, 3-methylcatechol, 4-methylcatechol, catechol-4-acetic acid, noradrenaline, adrenaline, 3-(3,4-dihydroxyphenyl)-L-alanine, 5,6-dihydroxyindole, catechin, isoflavone, gallic acid, ellagic acid, 4-tert-butylpyrocatechol, pyrogallol, 5-sec-butylpyrogallol, 4-phenylpyrogallol, 4-methyl-1,2,3-benzenetriol, 4,5,6-trichloropyrogallol, 4,5,6-trimethylpyrogallol, 4,5-dimethylpyrogallol, and 4,6-dimethylpyrogallol.

As the reducing agent, ascorbic acid is also preferable.

Furthermore, examples of the ascorbic acid include ascorbic acids such as ascorbic acid, isoascorbic acid, ascorbic acid sulfuric ester, ascorbic acid phosphoric ester, ascorbic acid 2-glucoside, ascorbyl palmitic ester, ascorbyl tetraisopalmitate, ascorbic acid isopalminate, and salts thereof, and the ascorbic acid is preferable.

A compound containing a sulfur atom is also preferable as the reducing agent.

Furthermore, examples of the compound containing a sulfur atom include mercaptosuccinic acid, dithiodiglycerol [S(CH₂CH(OH)CH₂(OH))₂], bis(2,3-dihydroxypropylthio)ethylene [CH₂CH₂(SCH₂CH(OH)CH₂(OH))₂], sodium 3-(2,3-dihydroxypropylthio)-2-methyl-propylsulfonate [CH2(OH)CH(OH)CH₂SCH₂CH(CH₃)CH₂SO₃Na], 1-thioglycerol [HSCH₂CH(OH)CH₂(OH)], sodium 3-mercapto-1-propanesulfonate [HSCH₂CH₂CH2SO₃Na], 2-mercaptoethanol [HSCH₂CH₂(OH)], thioglycolic acid [HSCH₂CO₂H], and 3-mercapto-1-propanol [HSCH₂CH₂CH₂OH]. Among these, a compound having a SH group (mercaptan compound) is preferable, and 1-thioglycerol, sodium 3-mercapto-1-propanesulfonate, 2-mercaptoethanol, 3-mercapto-1-propanol, or thioglycolic acid is more preferable, and 1-thioglycerol or thioglycolic acid is still more preferable.

Among those, the reducing agent is preferably one or more reducing agents selected from the group consisting of catechol and a derivative thereof, and a mercaptan compound.

The content of the reducing agent is preferably 0.01% to 5% by mass, more preferably 0.05% to 3% by mass, and still more preferably 0.1% to 1% by mass with respect to the total mass of the treatment liquid.

Acetic Acid

The treatment liquid of the embodiment of the present invention preferably further contains acetic acid.

By incorporating the acetic acid, the defect suppression property of the treatment liquid is more excellent.

The content of the acetic acid is preferably 1 ppt by mass to 0.1% by mass, more preferably 500 ppt by mass to 0.09% by mass, and still more preferably 5 ppb by mass to 0.08% by mass with respect to the total mass of the treatment liquid.

Other Organic Acids

The treatment liquid of the embodiment of the present invention preferably further contains another organic acid, in addition to the above-mentioned components.

By incorporating other organic acid, the residue removal property of the treatment liquid and the temporal stability are more excellent.

Such another organic acid is, for example, a component different from the above-mentioned acetic acid and reducing agent.

Such another organic acid preferably has one or more acid groups, and the acid group of such another organic acid is preferably at least one functional group selected from a carboxylic acid group, a sulfonic acid group, and a phosphonic acid group, with the carboxylic acid group being more preferable.

Specific examples of other organic acids include polyaminopolycarboxylic acids, aliphatic dicarboxylic acids, and aliphatic polycarboxylic acids containing a hydroxyl group.

The polyaminopolycarboxylic acid is a compound having a plurality of amino groups and a plurality of carboxylic acid groups, and examples thereof include a monoalkylenepolyamine polycarboxylic acid, a polyalkylenepolyamine polycarboxylic acid, a polyaminoalkane polycarboxylic acid, a polyaminoalkanol polycarboxylic acid, and a hydroxyalkyl ether polyamine polycarboxylic acid.

Examples of the aliphatic dicarboxylic acids include oxalic acid, malonic acid, succinic acid, and maleic acid, and the oxalic acid, the malonic acid, or the succinic acid is preferable.

Examples of the aliphatic polycarboxylic acid including a hydroxyl group include malic acid, tartaric acid, and citric acid, and the citric acid is preferable.

The content of such another organic acid is preferably 0.01% to 5% by mass, more preferably 0.05% to 3% by mass, and still more preferably 0.1% to 1% by mass with respect to the total mass of the treatment liquid.

Metal-Containing Particles

The treatment liquid of the embodiment of the present invention may further contain metal-containing particles containing one or more metal components selected from the group consisting of Na, Ca, Fe, and Cr.

Furthermore, the metal-containing particles have a particle diameter of 0.02 to 0.05 μm.

The diameter and the content of such metal-containing particles in the treatment liquid are, for example, Agilent 8900 triple quadrupole SNP-ICP/MS (small nanoparticle-inductively coupled plasma mass spectrometry, Option #200 for semiconductor analysis) can be used for the measurement.

The metal-containing particle contains one or more metal components selected from the group consisting of Na, Ca, Fe, and Cr, and in a case where the particle diameter is within a predetermined range, the structure is not particularly limited, and for example, the metal may be a simple substance or an alloy, or may be associated with a component other than the metal.

The content of the metal-containing particles is preferably 10 ppt by mass to 10 ppb by mass with respect to the total mass of the treatment liquid from the viewpoint that the defect suppression property of the treatment liquid is more excellent.

By setting the content of the metal-containing particles to 10 ppb by mass or less, it is possible to prevent the particles from remaining on the substrate to cause scratches.

On the other hand, by setting the content of the metal-containing particles to 10 ppt by mass or more, the residue of the ionic metal can be reduced.

The metal-containing particles are often contained as impurities in the raw material of the treatment liquid, and in a case where the unpurified raw materials are mixed, an amount exceeding the preferable range is often brought into the treatment liquid. Therefore, by subjecting a part or all of the raw materials constituting the treatment liquid to a purification treatment such as filtering before or after mixing, the content of the metal-containing particles in the finally obtained treatment liquid can be adjusted to a predetermined range.

In addition, the metal-containing particles may be added separately in preparation of treatment liquid.

Water

The treatment liquid of the embodiment of the present invention preferably contains water.

The content of water in the treatment liquid of the embodiment of the present invention is not particularly limited and is, for example, 15% to 59.999% by mass with respect to the total mass of the treatment liquid.

pH (pH Adjusting Agent)

The pH of the treatment liquid of the embodiment of the present invention is 8 or more. By setting the pH of the treatment liquid to be in the alkaline range, the residue removal performance is excellent.

Among those, the pH of the treatment liquid is preferably 9 or more, more preferably 10 or more, and still more preferably higher than 10 from the viewpoints that the anticorrosion property against Co, the defect suppression property, and the residue removal property are more excellent.

In addition, the pH of the treatment liquid is preferably 14 or less, more preferably 12 or less, and still more preferably less than 12 from the viewpoint that the anticorrosion property against W and the defect suppression property are more excellent.

In order to adjust the treatment liquid to be in the pH range, the treatment liquid may include a pH adjusting agent. The above-mentioned organic basic compound may also serve as the pH adjusting agent for increasing the pH of the treatment liquid.

Examples of the pH adjusting agent for increasing the pH of the treatment liquid include 1,8-diazabicyclo [5.4.0]-7-undecene (DBU), tetramethylammonium hydroxide (TMAH), tetrabutylammonium hydroxide (TBAH), and an inorganic base (KOH and the like). In a case where an inorganic base is used as the pH adjusting agent, the amount of the inorganic base is preferably 0.1% by mass or less with respect to the total mass of the treatment liquid.

The acid as described above (acetic acid, another organic acid, and the like) may also serve as a pH adjusting agent for lowering the pH of the treatment liquid.

Examples of the pH adjusting agent for lowering the pH of the treatment liquid include inorganic acids (HCl, H₂SO₄, H₃PO₄, and the like) and citric acid.

Other Additives

Examples of other additives include an organic solvent other than an alcohol, an anticorrosive material, an antifoaming agent, a rust inhibitor, and a preservative.

Metal Concentration

In the treatment liquid of the embodiment of the present invention, it is preferable that the ion concentration of the metals (metal elements of Co, K, Cu, Mg, Mn, Li, Al, Ni, and Zn) contained as impurities in the liquid is 5 ppm by mass or less (preferably 1 ppm by mass or less). In particular, in a view that high-purity treatment liquids are further demanded in the manufacture of state-of-the-art semiconductor elements, it is more preferable that the metal concentration is less than a value in a ppm-by-mass order, that is, a value in a ppb-by-mass order or less, it is still more preferable that the metal concentration is in a ppt-by-mass order, and it is particularly preferable that the metal is not substantially included.

Examples of a method for sufficiently reducing the metal concentration include performing distillation or filtration using an ion exchange resin in at least one of a stage using raw materials used in the production of a treatment liquid or a stage after preparation of the treatment liquid.

Examples of a method other than the method for reducing the metal concentration include a use of a container having little elution of impurities as shown in the section describing a container housing the treatment liquid with regard to a “container” housing raw materials used in the production of a treatment liquid. Other examples of the method include a method of carrying out lining of a fluorine-based resin for an inner wall of a “pipe” so as to prevent the elution of metal fractions from the pipe or the like during the preparation of the treatment liquid.

Applications

The treatment liquid of the embodiment of the present invention is a treatment liquid for a semiconductor device. In the present invention, the expression, “for a semiconductor device”, means a use for the manufacture of a semiconductor device. The treatment liquid of the embodiment of the present invention can also be used in any steps for manufacturing a semiconductor device, and can also be used in, for example, a treatment of an insulating film, a resist, or an antireflection film, which is present on a substrate, a treatment of dry etching residues (residues of a photoresist film, residues of a metal hard mask, and the like), a treatment of ashing residues, and the like.

With regard to more specific applications of the treatment liquid, the treatment liquid is used as a pre-wet liquid applied on a substrate in order to improve the coatability of an actinic ray-sensitive or radiation-sensitive composition before a step of forming a photoresist film using the composition; a cleaning liquid used for removing residues such as dry etching residues, or the like; a solution (for example, a removing liquid and a peeling liquid) used for removing various resist films (preferably a photoresist film) used for the formation of a pattern; and a solution (for example, a removing liquid and a peeling liquid) used for removing a permanent film (for example, a color filter, a transparent insulating film, and a resin-made lens) or the like from a substrate. In addition, the treatment liquid can also be used as a developer for various actinic ray-sensitive or radiation-sensitive resin composition layers for pattern formation.

In addition, the treatment liquid can also be used as a cleaning liquid which is used for removing residues such as metal impurities and fine particles from a substrate after chemical mechanical polishing. The substrate after the removal of a permanent film may be used again in a use of a semiconductor device, and therefore, the removal of the permanent film is included in the step of manufacturing a semiconductor device.

The treatment liquid may be used as an etching liquid for treating the metal layer of the substrate having a metal layer.

Among the applications, the treatment liquid can also be suitably used as a cleaning liquid for removing dry etching residues, a solution for removing various resist films used for pattern formation, or a cleaning liquid for removing residues such as metal impurities and fine particles from a substrate after chemical mechanical polishing.

The treatment liquid of the embodiment of the present invention may be used only in one or two or more of the applications.

As miniaturization and high functionalization of semiconductor devices proceed in recent years, metals used for wiring materials, plug materials, or the like are required to be more electrically conductive. For example, it is presumed that substitution of aluminum (Al) and copper (Cu) in the metals used as the wiring materials with cobalt (Co) proceeds. In addition, it is expected that in addition to tungsten (W) in the metals used as the plug materials, a demand for Co increases.

Therefore, it is preferable that the treatment liquid has a small amount of corrosion with respect to W and Co.

The treatment liquid of the embodiment of the present invention is preferably used for a treatment of a substrate having a metal layer containing one or more selected from the group consisting of W and Co. Further, the treatment liquid of the embodiment of the present invention is preferably used as a treatment liquid for manufacturing a semiconductor device including a substrate having a metal layer containing one or more selected from the group consisting of W and Co.

In addition, the metal layer containing one or more selected from the group consisting of W and Co may be a metal layer consisting of W and/or Co, or a metal layer which is an alloy including W and/or Co, or may also be another form of the metal layer including W and/or Co.

Method for Producing Treatment Liquid Liquid Preparing Method for Treatment Liquid

The treatment liquid can be produced by a known method.

Hereinafter, the method for producing the treatment liquid will be described in detail.

Step of Purifying Raw Materials

In the production of the treatment liquid, it is preferable to purify any one or more of the raw materials for preparing the treatment liquid by distillation, ion exchange, filtration or the like in advance. As for the degree of purification, for example, it is preferable to purify the raw materials to have a purity of 99% or more, and more preferable to have a purity of 99.9% or more.

The purification method is not particularly limited, but examples thereof include a method including passing through an ion exchange resin, an reverse osmosis (RO) membrane, or the like, and a method of distillation, filtering which will be described later, or the like. Specific examples of the method include a method in which a primary purification is performed by passage through a reverse osmosis membrane or the like, and then a secondary purification is carried out by passage through a purification device including a cation exchange resin, an anion exchange resin, or a mixed bed ion exchange resin.

Incidentally, for the purification treatment, a plurality of the above-mentioned known purification methods may be carried out in combination.

In addition, the purification treatments may be carried out a plurality of times.

Filtering

The filter is not particularly limited as long as it is a filter which has been used in filtering applications or the like from the related art. Examples thereof include a filter formed with a fluorine resin such as polytetrafluoroethylene (PTFE) and a tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer (PFA), a polyamide-based resin such as nylon, and a polyolefin resin (including a high-density polyolefin and an ultrahigh-molecular-weight polyolefin) such as polyethylene and polypropylene (PP), or the like. Among these materials, a material selected from the group consisting of the polyethylene, the polypropylene (including a high-density polypropylene), the fluorine resin such as PTFE and PFA, and the polyamide-based resin such as nylon is preferable, and among these, a filter with a fluorine resin such as PTFE and PFA is more preferable. By using a filter formed with these materials, high-polarity foreign matters which are likely to cause defects can be more effectively removed.

The critical surface tension of the filter is preferably 70 mN/m or more, more preferably 95 mN/m or less, and still more preferably from 75 mN/m to 85 mN/m. Further, the value of the critical surface tension is a nominal value of a manufacturer. By using a filter having a critical surface tension in the range, high-polarity foreign matters which are likely to cause defects can be more effectively removed.

The pore diameter of the filter is preferably approximately 2 to 20 nm, and more preferably 2 to 15 nm. By adjusting the pore diameter of the filter to be in the range, it is possible to reliably remove fine foreign matters such as impurities and aggregates included in the raw materials while suppressing clogging in filtering.

In a case of using filters, different filters may be combined. In this case, the filtering with the first filter may be performed once or twice or more times. In a case where the filtering is performed twice or more times by combining different filters, the pore diameter at the second filtering or later is preferably the same as or smaller than the pore diameter at the first filtering. In addition, the first filters with different pore diameters in the above-mentioned range may be combined. With regard to the pore diameters herein, reference can be made to nominal values of filter manufacturers. A commercially available filter may be selected from various filters provided by Nihon Pall Ltd., Advantech Toyo Roshi Kaisha., Ltd., Nihon Entegris K. K. (formerly Nippon Microlith Co., Ltd.), Kitz Micro Filter Corporation, or the like, for example. Further, a polyamide-made “P-Nylon Filter (pore diameter of 0.02 μm, critical surface tension of 77 mN/m)”; (manufactured by Nihon Pall Ltd.), a high-density polyethylene-made “PE⋅Clean Filter (pore diameter of 0.02 μm)”; (manufactured by Nihon Pall Ltd.), and a high-density polyethylene-made “PE⋅Clean Filter (pore diameter of 0.01 μm)”; (manufactured by Nihon Pall Ltd.) can also be used.

As the second filter, a filter formed of the same materials as those of the above-mentioned first filter, and the like can be used. The pore diameter of the second filter is preferably approximately 1 to 10 nm.

Moreover, in the present invention, the filtering step is preferably performed at room temperature (25° C.) or lower, more preferably performed at 23° C. or lower, and still more preferably performed at 20° C. or lower. Further, the temperature is preferably 0° C. or higher, more preferably 5° C. or higher, and still more preferably 10° C. or higher.

In the filtering step, particulate foreign matters or impurities can be removed, but in a case of performing the filtering at the temperature, the amounts of the particulate foreign matters and/or impurities dissolved in the raw materials are reduced, and therefore, they are efficiently removed by filtering.

In addition, in order to adjust the content of the metal-containing particles in the finally obtained treatment liquid within the range as described above, a part or all of the raw materials and a mixture thereof may be subjected to a purification treatment by making an adjustment so that the metal-containing particles having a constant amount and/or particle diameter remain.

Liquid Preparing Step

The liquid preparation for the treatment liquid of the embodiment of the present invention is not particularly limited, and the treatment liquid can be produced by mixing the above-mentioned respective components, for example. The order and/or timing for mixing the above-mentioned respective components is not particularly limited, and examples thereof include a method in which a hydroxylamine compound is dispersed in advance in water having a pH adjusted, and predetermined components are sequentially mixed.

Kit and Concentrate

The treatment liquid in the embodiment of the present invention may be used in the form of a kit having raw materials of the treatment liquid divided into a plurality of parts.

Although not being particularly limited, examples of a specific method for using the treatment liquid in the form of the kit include an aspect in which a liquid composition containing a hydroxylamine compound and an organic basic compound in an alcohol-based solvent is prepared as a first liquid, and a liquid composition containing the other components is prepared as a second liquid.

Further, the treatment liquid may be prepared by using a concentrate. In a case where a concentrate of the treatment liquid is prepared, the concentration rate is appropriately determined by the composition for constitution, but is preferably 5 to 2,000 folds. That is, the treatment liquid is used after dilution of the concentrate to 5 to 2,000 folds. In addition, from the viewpoint of further improving the temporal stability of the residue removal performance, it is preferable to reduce the water which causes the decomposition of the hydroxylamine compound as much as possible, and thus prepare a composition including a large amount of alcohol-based solvent.

Container (Housing Container)

The treatment liquid of the embodiment of the present invention can be filled in any container as long as the container does not have any problem such as corrosion properties (irrespective of whether the treatment liquid is a kit or a concentrate), stored, transported, and used. As for the container, as a container used in semiconductor applications, a container which has high cleanliness in the container and less elution of impurities is preferable. Examples of the usable container include, but are not limited to, “CLEAN BOTTLE” series (manufactured by Aicello Chemical Co., Ltd.) and “PURE BOTTLE” (manufactured by Kodama Plastics Co., Ltd.). The inner wall of the container is preferably formed of one or more resins selected from the group consisting of a polyethylene resin, a polypropylene resin, and a polyethylene-polypropylene resin, other resins, and a metal which has been antirust and metal elution preventing treatments, such as stainless steel, Hastelloy, Inconel, and Monel.

As such other resins, a fluorine-based resin (perfluoro resin) is preferable. In this manner, by using a container having an inner wall formed of a fluorine-based resin, occurrence of a problem of elution of ethylene or propylene oligomers can be suppressed, as compared with a container having an inner wall formed of a polyethylene resin, a polypropylene resin, or a polyethylene-polypropylene resin.

Specific examples of such a container having an inner wall which is a fluorine-based resin include a FluoroPurePFA composite drum manufactured by Entegris Inc. Further, the containers described on page 4 and the like of JP1991-502677A (JP-H03-502677A), page 3 and the like of WO2004/016526A, pages 9 and 16 of WO99/046309A, or the like can also be used.

Moreover, for the inner wall of the container, the quartz and the electropolished metal material (that is, the metal material which has been completely electropolished) are also preferably used, in addition to the above-mentioned fluorine-based resin.

The metal material used for producing the electropolished metal material is preferably a metal material which contains at least one selected from the group consisting of chromium and nickel, and has a total content of chromium and nickel of more than 25% by mass with respect to the total mass of the metal material, and examples thereof include stainless steel and a nickel-chromium alloy.

The total content of chromium and nickel in the metal material is more preferably 30% by mass or more with respect to the total mass of the metal material.

In addition, the upper limit value of the total content of Cr and Ni in the metal material is not particularly limited, but is generally preferably 90% by mass or less.

The stainless steel is not particularly limited, and a known stainless steel can be used. Among those, an alloy containing 8% by mass or more of nickel is preferable, and austenitic stainless steel containing 8% by mass or more of nickel is more preferable. Examples of the austenitic stainless steel include Steel Use Stainless (SUS) 304 (Ni content of 8% by mass, Cr content of 18% by mass), SUS 304L (Ni content of 9% by mass, Cr content of 18% by mass), SUS 316 (Ni content of 10% by mass, Cr content of 16% by mass), and SUS 316L (Ni content of 12% by mass, Cr content of 16% by mass).

The nickel-chromium alloy is not particularly limited and a known nickel-chromium alloy can be used. Among those, a nickel-chromium alloy having a nickel content of 40% to 75% by mass and a chromium content of 1% to 30% by mass is preferable.

Examples of the nickel-chromium alloy include Hastelloy (trade name, hereinafter, the same shall apply), Monel (trade name, hereinafter, the same shall apply), and Inconel (trade name, hereinafter, the same shall apply). More specific examples thereof include Hastelloy C-276 (Ni content of 63% by mass, Cr content of 16% by mass), Hastelloy C (Ni content of 60% by mass, Cr content of 17% by mass), and Hastelloy C-22 (Ni content of 61% by mass, Cr content of 22% by mass).

In addition, the nickel-chromium alloy may further contain boron, silicon, tungsten, molybdenum, copper, cobalt, or the like, as desired, in addition to the above-mentioned alloys.

A method for electropolishing the metal material is not particularly limited, and a known method can be used. For example, the methods described in paragraphs [0011] to [0014] of JP2015-227501A, paragraphs [0036] to [0042] of JP2008-264929A, or the like can be used.

It is presumed that the metal material has a larger content of chromium in the passivation layer on the surface than the content of chromium in the parent phase by electropolishing the metal material. As a result, it is presumed that since it is difficult for the metal elements to flow into the treatment liquid from the inner wall coated with the electropolished metal material, it is possible to obtain a treatment liquid having a reduced amount of metal impurities.

In addition, it is preferable that the metal material is buffed. The buffing method is not particularly limited, and known methods can be used. The size of the abrasive grain used to finish the buffing is not particularly limited, but is preferably #400 or less in view that the unevenness of the surface of the metal material is likely to be smaller.

Incidentally, buffing is preferably performed before the electropolishing.

In addition, the metal material may be subjected to a treatment including one of buffing, acid cleaning, magnetic fluid polishing, and the like or a combination of two or more thereof in a plurality of steps that are performed by changing the number of a size or the like of the abrasive grains.

In the present invention, the container, and the treatment liquid housed in the container may be referred to as a treatment liquid receptor in some cases.

The inside of these containers is preferably cleaned before the treatment liquid is filled. For the liquid used for the cleaning, the amount of the metal impurities in the liquid is preferably reduced. The treatment liquid of the embodiment of the present invention may be bottled in a container such as a gallon bottle and a coated bottle after the production, transported, and stored.

In order to prevent the change in the components in the treatment liquid during the storage, the inside of the container may be replaced with inert gas (nitrogen, argon, or the like) with a purity of 99.99995% by volume or more. In particular, a gas having a low moisture content is preferable. In addition, during the transportation and the storage, the temperature may be controlled to a normal temperature in the range of −20° C. to 20° C. to prevent deterioration.

Clean Room

It is preferable that handlings including production of the treatment liquid of the embodiment of the present invention, opening and/or cleaning of a housing container, filling of the treatment liquid, and the like, treatment analysis, and measurements are all performed in clean rooms. It is preferable that the clean room satisfies 14644-1 clean room standards. It is preferable that the clean room satisfies any one of International Organization for Standardization (ISO) Class 1, ISO Class 2, ISO Class 3, or ISO Class 4, it is more preferable that the clean room satisfies ISO Class 1 or ISO Class 2, and it is still more preferable that the clean room satisfies ISO Class 1.

Method for Cleaning Substrate

As one aspect of the method for cleaning a substrate using the treatment liquid of the embodiment of the present invention, an aspect having a cleaning step of using the treatment liquid to clean a substrate having a metal layer containing one or more selected from the group consisting of W and Co (hereinafter also referred to as a “cleaning step B”) may be mentioned. Further, the cleaning method of the aspect may have a treatment liquid preparing step (hereinafter referred to as a “treatment liquid preparing step A”) of preparing the treatment liquid before the cleaning step B.

In the following description of the substrate cleaning method, a case of performing the treatment liquid preparing step A before the cleaning step B is shown as an example, but the present invention is not limited to this, and the substrate cleaning method of the present invention may be performed using the treatment liquid that has been prepared in advance.

Object to Be Cleaned

The object to be cleaned in the method for cleaning a substrate according to the present invention is preferably a substrate having a metal layer containing one or more selected from the group consisting of W and Co. Examples of the object to be cleaned by the method for cleaning a substrate according to the present invention include a laminate comprising at least a metal layer containing one or more selected from the group consisting of W and Co (hereinafter simply referred to as a “metal layer”), an interlayer insulating layer, and a metal hard mask in this order on the substrate. The laminate further has holes formed toward the substrate from the surface (apertures) of the metal hard mask so as to expose the surface of the metal layer through a dry etching step or the like.

A method for producing a laminate having holes as described above is not particularly limited, but common examples thereof include a method in which a laminate before the treatment, having a substrate, a metal layer, an interlayer insulating layer, and a metal hard mask in this order, is subjected to a dry etching step using the metal hard mask as a mask, and the interlayer insulating layer is etched so as to expose the surface of the metal layer, thereby providing holes passing through the inside of the metal hard mask and the interlayer insulating layer.

Furthermore, a method for producing the metal hard mask is not particularly limited, and examples thereof include a method in which a metal layer including predetermined components is firstly formed on an interlayer insulating layer, a resist film having a predetermined pattern is formed thereon, and then the metal layer is etched using the resist film as a mask to produce a metal hard mask (that is, a film with a metal layer that is patterned).

In addition, the laminate may have layers other than the above-mentioned layer, and examples of such other layers include an etching stop layer and an antireflection layer.

FIG. 1 illustrates a schematic cross-sectional view showing an example of a laminate which is an object to be cleaned in the method for cleaning a substrate of the embodiment of the present invention.

A laminate 10 shown in FIG. 1 comprises a metal layer 2, an etching stop layer 3, an interlayer insulating layer 4, and a metal hard mask 5 in this order on a substrate 1, and has holes 6 formed by a dry etching step, through which the metal layer 2 is exposed at predetermined positions. That is, the object to be cleaned shown in FIG. 1 is a laminate comprising the substrate 1, the metal layer 2, the etching stop layer 3, the interlayer insulating layer 4, and the metal hard mask 5 in this order, and comprising the holes 6 passing through the surface of the metal hard mask 5 at aperture positions thereof to the surfaces of the metal layer 2. The inner wall 11 of the hole 6 is formed of a cross-sectional wall 11 a consisting of the etching stop layer 3, the interlayer insulating layer 4, and the metal hard mask 5, and a bottom wall 11 b consisting of the exposed metal layer 2, and dry etching residues 12 adhere thereto.

The method for cleaning a substrate of the embodiment of the present invention can be suitably used in cleaning intended to remove the dry etching residues 12. That is, while being excellent in removal performance of the dry etching residue 12, it is also excellent in the anticorrosion property of the inner wall 11 (for example, the metal layer 2 and the like) of the object to be cleaned.

In addition, the method for cleaning a substrate of the embodiment of the present invention may also be carried out for the laminate which has been subjected to a dry ashing step after the dry etching step.

Hereinafter, each layer constituent material of the above-mentioned laminate will be described.

Metal Hard Mask

The metal hard mask preferably contains at least one component selected from the group consisting of Cu, Co, W, AlOx, AlN, AlOxNy, WOx, Ti, TiN, ZrOx, HfOx, and TaOx. Here, x and y are numbers represented by x=1 to 3 and y=1 or 2, respectively.

Examples of the material of the metal hard mask include TiN, WO₂, and ZrO₂.

Interlayer Insulating Layer

A material for the interlayer insulating layer is not particularly limited, and examples thereof include those having a dielectric constant k of preferably 3.0 or less, and more preferably 2.6 or less.

Specific examples of the material for the interlayer insulating layer include organic polymers such as SiO₂, SiOC-based materials, and a polyimide.

Etching Stop Layer

A material for the etching stop layer is not particularly limited. Specific examples of the material for the etching stop layer include SiN-, SiON-, and SiOCN-based materials, and metal oxides such as AlOx.

Metal Layer

The wiring material forming the metal layer contains at least tungsten (W) or cobalt (Co). Further, these metals may be alloys with other metals.

The wiring material of the present invention may further contain a metal other than W and Co, a metal nitride, or an alloy. Specific examples thereof include copper, titanium, titanium-tungsten, titanium nitride, tantalum, tantalum compounds, chromium, chromium oxide, and aluminum.

Substrate

Examples of the “substrate” as mentioned herein include a semiconductor substrate consisting of a single layer and a semiconductor substrate consisting of multiple layers.

A material constituting the semiconductor substrate including a single layer is not particularly limited, and in general, the semiconductor substrate is preferably formed of silicon, silicon germanium, Group III to V compounds such as GaAs, and any combinations thereof.

In a case of the semiconductor substrate including multiple layers, its configuration is not particularly limited, and the substrate may have, for example, exposed integrated circuit structures such as interconnect structures (interconnect features) such as a metal wire and a dielectric material on the semiconductor substrate such as silicon as described above. Examples of the metals and the alloys used in the interconnect structures include, but are not limited to, aluminum, aluminum alloyed with copper, copper, titanium, tantalum, cobalt, silicon, titanium nitride, tantalum nitride, and tungsten. Further, there may be an interlayer dielectric layer, a silicon oxide layer, a silicon nitride layer, a silicon carbide layer, a carbon-doped silicon oxide layer, or the like on the semiconductor substrate.

Treatment Step

Hereinafter, the treatment liquid preparing step A and the cleaning step B will be described, respectively, in detail.

Treatment Liquid Preparing Step A

The treatment liquid preparing step A is a step of preparing the treatment liquid. The respective components used in the present step are as described above.

The procedure in the present step is not particularly limited, and examples thereof include a method in which a hydroxylamine compound, an organic basic compound, an alcohol-based solvent, and any other components are added, stirred, and mixed to prepare a treatment liquid. Further, in a case where the respective components are added, they may be added at once or may be added in portions over a plurality of times.

In addition, as the respective components included in the treatment liquid, components classified into a semiconductor grade or components classified into a high-purity grade equivalent thereto are preferably used, and components which have been subjected to removal of foreign matters by filtering and/or reduction in ion components with an ion exchange resin or the like are preferably used. Further, it is preferable that the raw material components are mixed, and then subjected to removal of foreign matters by filtering and/or reduction in ion components with an ion exchange resin or the like are used.

Moreover, in a case where a concentrate of the treatment liquid is prepared, the concentrate is diluted to obtain a diluted solution before the cleaning step B is performed, and then the cleaning step B is performed using this diluted solution. In this case, the dilution is preferably performed using a diluting liquid containing water.

Cleaning Step B

Examples of an object to be cleaned to be cleaned in the cleaning step B include the above-mentioned laminate, and examples thereof include the laminate 10 having holes formed by carrying out a dry etching step as described above (see FIG. 1). In addition, the dry etching residues 12 adhere to the inside of the holes 6 in the laminate 10.

In addition, the laminate which has been subjected to a dry ashing step after the dry etching step may be referred to as an object to be cleaned.

A method for bringing the treatment liquid into contact with the object to be cleaned is not particularly limited, but examples thereof include a method in which an object to be cleaned is immersed in a treatment liquid contained in a tank, a method in which a treatment liquid is sprayed onto an object to be cleaned, a method in which a treatment liquid is flowed onto an object to be cleaned, and any combinations thereof. From the viewpoint of the residue removal performance, the method in which an object to be cleaned is immersed in a treatment liquid is preferable.

A temperature of the treatment liquid is preferably set to 90° C. or lower, more preferably 25° C. to 80° C., still more preferably 30° C. to 75° C., and particularly preferably 40° C. to 70° C.

The cleaning time can be adjusted depending on the cleaning method used and the temperature of the treatment liquid.

In a case where cleaning is performed in an immersion batch mode (a batch mode in which a plurality of sheets of object to be cleaned are immersed in a treatment tank to perform a treatment), the cleaning time is, for example, 60 minutes or less, preferably 1 to 60 minutes, more preferably 3 to 20 minutes, and still more preferably 4 to 15 minutes.

In a case where sheet-type cleaning is performed, the cleaning time is, for example, 10 seconds to 5 minutes, preferably 15 seconds to 4 minutes, more preferably 15 seconds to 3 minutes, and still more preferably 20 seconds to 2 minutes.

Furthermore, in order to further enhance the cleaning capability of the treatment liquid, a mechanical stirring method may be used.

Examples of the mechanical stirring method include a method in which a treatment liquid is circulated on an object to be cleaned, a method in which a treatment liquid is flowed through or sprayed on an object to be cleaned, and a method in which a treatment liquid is stirred with an ultrasonic or a megasonic.

Rinsing Step B2

The method for cleaning a substrate using the treatment liquid of the embodiment of the present invention may further have a step (hereinafter referred to as a “rinsing step B2”) of cleaning the object to be cleaned by rinsing it with a solvent after the cleaning step B.

The rinsing step B2 is preferably a step which is performed subsequently after the cleaning step B, and involves rinsing performed with a rinsing solvent (rinsing liquid) over 5 seconds to 5 minutes. The rinsing step B2 may be performed using the above-mentioned mechanical stirring method.

Examples of the rinsing solvent include, but are not limited to, deionized (DI) water, methanol, ethanol, isopropyl alcohol, N-methylpyrrolidinone, γ-butyrolactone, dimethyl sulfoxide, ethyl lactate, and propylene glycol monomethyl ether acetate. Alternatively, an aqueous rinsing liquid (diluted aqueous ammonium hydroxide or the like) with a pH>8 may be used.

As the rinsing solvent, an aqueous ammonium hydroxide solution, DI water, methanol, ethanol, or isopropyl alcohol is preferable, the aqueous ammonium hydroxide solution, DI water, or isopropyl alcohol is more preferable, and the aqueous ammonium hydroxide solution or DI water is still more preferable.

As a method for bringing the rinsing solvent into contact with the object to be cleaned, the above-mentioned method in which the treatment liquid is brought into contact with an object to be cleaned can be applied in the same manner.

The temperature of the rinsing solvent in the rinsing step B2 is preferably 16° C. to 27° C.

Drying Step B3

The method for cleaning a substrate using the treatment liquid of the embodiment of the present invention may have a drying step B3 for drying an object to be cleaned after the rinsing step B2.

The drying method is not particularly limited. Examples of the drying method include a spin drying method, a method of flowing a dry gas onto an object to be cleaned, a method of heating a substrate by a heating means such as a hot plate and an infrared lamp, a Marangoni drying method, a Rotagoni drying method, an isopropyl alcohol (IPA) drying method, or any combinations thereof.

The drying time depends on a specific method used, but in general, it is preferably 30 seconds to several minutes.

The object to be cleaned in the method for cleaning a substrate using the treatment liquid of the embodiment of the present invention is not limited to a laminate comprising at least a metal layer containing one or more selected from the group consisting of W and Co, an interlayer insulating layer, and a metal hard mask in this order on a substrate, as described above. That is, for example, the method can also be used to remove photoresist etching residues of a laminate comprising at least a metal layer containing one or more selected from the group consisting of W and Co, an interlayer insulating layer, and a photoresist film in this order on a substrate.

EXAMPLES

Hereinbelow, the present invention will be described in more detail with reference to Examples. The materials, the amounts used, the proportions, the treatment details, the treatment procedure, and the like shown in Examples below may be modified as appropriate as long as the modifications do not depart from the spirit of the present invention. Therefore, the scope of the present invention should not be construed as being limited to Examples shown below. In addition, “%” means “mass %” unless otherwise specified.

Preparation of Treatment Liquid

The treatment liquids shown in Table 1 were each prepared. In addition, the contents of the respective components used in each treatment liquid (all based on mass) are as described in the table.

Here, various components shown in Table 1 which are all classified into a semiconductor grade or a high-purity grade equivalent thereto were used.

Various components used in the treatment liquid are shown below.

Hydroxylamine Compound

HA: Hydroxylamine

HAS: Hydroxylamine sulfate

Organic Basic Compound

Amine 1: Tetrahydrofurfurylamine

Amine 2: N-(2-Aminoethyl)piperazine

Amine 3: 1,8-Diazabicyclo[5.4.0]undecene-7

Amine 4: 1,4-Diazabicyclo[2.2.2]octane

Amine 5: Diethylethylenetriamine

Amine 6: Triethylenetetramine

Amine 7: Tetraethylenepentamine

TMAH: Tetramethylammonium hydroxide

TBAH: Tetrabuthyllammonium hydroxide

BeTMAH: Benzyltrimethylammonium hydroxide

Alcohol-Based Solvent

Sol. 01: 3-Methoxy-3-methyl-1-butanol

Sol. 02: 1,3-Dihydroxypropane

Sol. 03: 1,4-Dihydroxybutane

Sol. 04: 2,5-Dihydroxy-2,5-dimethylhexane

Sol. 05: Furfuryl alcohol

Sol. 06: Glycerin

Sol. 07: 2,4-Dihydroxy-2-methylpentane

Sol. 08: 3-Methoxy-1-butanol

Sol. 09: 3-Methoxy-3-methylbutanol

Sol. 10: Ethylene glycol

Sol. 11: 1,2-Propanediol

Sol. 12: Ethylene glycol monoethyl ether

Sol. 13: Ethylene glycol monobutyl ether

Sol. 14: Diethylene glycol monomethyl ether

Sol. 15: Diethylene glycol monoethyl ether

Sol. 16: Dipropylene glycol monomethyl ether

Sol. 17: 1,2-Butanediol

Furthermore, among the components, Sol. 01, 08, 09, and 12 to 16 are alcohol-based solvents each having an alkoxy group.

Surfactant

Surf. 01: Dodecylbenzenesulfonic acid

Surf. 02: Benzenedisulfonic acid, dodecylphenoxy-

Surf. 03: Polyoxyethylene lauryl ether (manufactured by Kao Corporation, molecular weight of more than 250)

Surf. 04: Polyoxyethylene polyoxypropylene glycol (manufactured by Takemoto Oil & Fat Co., Ltd., molecular weight of more than 250)

Surf. 05: Cetyltrimethylammonium bromide

Surf. 06: Cetylpyridinium chloride

Surf. 07: Benzethonium chloride

Surf. 08: Chlorhexidine dihydrochloride

Surf. 09: Distearyl dimethyl ammonium chloride

Surf. 10: Benzalkonium chloride (manufactured by Kao Corporation)

Surf. 11: Dequalinium Chloride

Surf. 12: Dodecyltrimethylammonium chloride

Surf. 13: Octadecylamine hydrochloride

Surf. 14: 1-Dodecylpyridinium chloride

Surf. 15: Lauryl glucoside

Surf. 16: Octylphenol ethoxylate

Surf. 17: 2-Alkyl-n-carboxymethyl-n-hydroxyethyl imidazolium betaine (manufactured by Takemoto Oil & Fat Co., Ltd.)

Surf. 18: Lauramidopropyl betaine

Surf. 19: Cocamidopropyl betaine (manufactured by Kao Corporation)

Furthermore, among the components, Surf. 1 and 2 are anionic surfactants.

Surf. 5 to 14 are cationic surfactants. Among those, the amine salt is Surf. 8 or 13. The pyridinium salt is Surf. 6, 11, or 14. The quaternary ammonium salt is 5, 7, 9, 10, or 12.

Surf. 3, 4, 15, and 16 are nonionic surfactants.

Surf. 17 to 19 are amphoteric surfactants.

Tertiary Amine Compound and Alkyl Halide Compound

Chem. 01: Trimethylamine

Chem. 02: 1-Chlorohexadecane

Chem. 03: Pyridine

Chem. 04: N,N-Dimethyl-2-[2-[4-(2,4,4-trimethylpentan-2-yl)phenoxy]ethoxy]ethanamine

Chem. 05: Benzyl chloride

Chem. 06: Dimethyl stearyl amine

Chem. 07: 1-Chlorooctadecane

Chem. 08: 4-Amino-2-methylquinoline

Chem. 09: 1,10-Dichlorodecane

Chem. 10: 1-Chlorooctadecane

Chem. 11: 1-Chlorododecane

Furthermore, among the components, Chem. 01, 03, 04, 06, 08 are tertiary amine compounds.

Chem. 02, 05, 07, 09, 10, and 11 are alkyl halide compounds.

Acid

O.A. 1: Citric acid

Reducing Agent

Red. 1: Thioglycollic acid

Red. 2: Gallic acid

Red. 3: Cathecol

Red. 4: α-Thioglycerol

Among the components, Red. 1 and 4 are mercaptan compounds, and Red. 2 and 3 are catechol or catechol derivatives.

Water

Water: Ultrapure water

pH Adjusting Agent

As a pH adjusting agent, an inorganic acid (H₃PO₄) or an inorganic base (KOH) other than the treatment liquids of Examples 20 and 55 was added so that the pH of the final treatment liquid would be a predetermined value.

In addition, in a case where an inorganic base was used as the pH adjusting agent, the amount of the added inorganic base was 0.1% by mass or less with respect to the total mass of the treatment liquid.

In Examples 20 and 55, an organic basic compound, 1,8-diazabicyclo[5.4.0]undecene-7 (DBU (Amine 3)) was used as the pH adjusting agent. In other words, in Examples 20 and 55, the pH was adjusted by adjusting the addition amount of the organic basic compound.

Acetic Acid

Acetic acid

Preparation of Treatment Liquid (Metal-Containing Particles)

The components were mixed so as to have the formulation and pH shown in Table 1 to obtain a mixed liquid. Next, the obtained mixed liquid was filtered with a filter to obtain a treatment liquid. In the filtration, the content of the metal-containing particles in the treatment liquid was adjusted by adjusting the type of a filter used and/or the number of times of filtration.

In addition, the content of the metal-containing particles in the treatment liquid was measured using Agilent 8900 triple quadrupole SNP-ICP/MS (for semiconductor analysis, Option #200).

Furthermore, the definition of the metal-containing particles is as described above.

Evaluations

Each of the treatment liquids prepared above was subjected to various evaluations shown below.

Etching Test

Each of the treatment liquids of Examples and Comparative Examples was prepared and then the W film or the Co film was subjected to an etching treatment.

Specifically, a substrate (substrate having a metal layer formed thereon) having a layer consisting of Co or a layer consisting of W by a chemical vapor deposition (CVD) method formed on one surface of a substrate (silicon wafer (diameter: 12 inches)) was prepared.

Furthermore, the substrate having the metal layer formed thereon was immersed in the treatment liquid (65° C.) of each of Examples and Comparative Examples for 5 minutes, and an etching rate (Å/min) of the treatment liquid for each metal layer was calculated from a difference in the thickness of the layer consisting of Co or the layer consisting of W between before and after the immersion in the treatment liquid. The lower the etching rate for Co or W as measured in this test, the better the anticorrosion property for Co or W, respectively.

Defect Suppression Property

The substrate on which the layer formed of Co was formed was sprayed for 1 minute at a flow rate of 1.0 L/min and 1.5 L/min, respectively, in the order of the treatment liquid (65° C.) of each of Examples and Comparative Examples, and water, and finally, a nitrogen gas was blown onto the substrate at a flow rate of 50 L/min.

Thereafter, the number of defects (pieces/cm²) in size (major axis) of 60 nm or more as an object to be measured was counted using a surface defect inspection device (Surfscan SP-2, manufactured by KLA-Tencor Corporation). From the obtained results, the defect suppression property of each treatment liquid was evaluated based on the following standard.

A: The number of defects is less than 0.5/cm².

B: The number of defects is 0.5/cm² or more and less than 1.0/cm².

C: The number of defects is 1.0/cm² or more and less than 2.0/cm².

D: The number of defects is 2.0/cm² or more and less than 3.0/cm².

E: The number of defects is 3.0/cm² or more.

Residue Removal Property

The residue removal performance was evaluated using each of the treatment liquids of Examples and Comparative Examples. Further, in the following evaluation, a model film formed of TiO₂, which is a kind of residue generated in a case where a metal hard mask (MHM) was plasma-etched, was prepared, and by evaluating an etching rate thereof, the residue removal performance was evaluated. That is, it can be said that in a case where the etching rate is high, the residue removal performance is excellent, whereas in a case where the etching rate is low, the residue removal performance is poor.

In addition, a model film (TiO₂ film) formed of TiO₂ is provided on an Si substrate with a film thickness of 1,000 Å.

Each of the treatment liquids of Examples and Comparative Examples was prepared and then the TiO₂ film was subjected to an etching treatment. Specifically, the TiO₂ film was immersed in the treatment liquid (65° C.) of each of Examples and Comparative Examples for 5 minutes, and based on a difference in the film thickness between before and after the immersion in the treatment liquid, an etching rate (Å/min) was calculated.

Furthermore, the thickness of the TiO₂ film before and after the treatment was measured using an ellipsometer (spectroscopic ellipsometer, trade name “Vase”, manufactured by J.A. Woollam Co., Inc.) under the conditions of a measurement range of 250 to 1,000 nm and measurement angles of 70 degrees and 75 degrees.

Based on the calculated etching rate (ER) of the TiO₂ film, the residue removal property was evaluated according to the following evaluation standard.

A: 1.5 Å/min<ER

B: 1.0 Å/min<ER≤1.5 Å/min

C: 0.5 Å/min<ER≤1.0 Å/min

D: 0.3 Å/min<ER≤0.5 Å/min

E: ER≤0.3 Å/min

The evaluation of the residue removal performance was carried out not only for the treatment liquid immediately after preparation (“0 h” in the tables) but also for the treatment liquid after being stored for 6 hours at 65° C. under a sealed condition (“6 h” in the tables) and the treatment liquid after being stored under the same condition for 12 hours (“12 h” in the tables), the residue removal property of the treatment liquids was evaluated.

Here, the etching rate of the TiO₂ film in a case of using the treatment liquid immediately after preparation was taken as ER_(0h), and the etching rate in a case of using the treatment liquid after being stored for 6 hours and the etching rate in a case of using the treatment liquid after being stored for 12 hours were taken as ER_(6h) and ER_(12h), respectively. The maintenance rates of the etching rates at the respective storage times were calculated as “ER_(6h)/ER_(0h)” and “ER_(12h)/ER_(0h)”, respectively, and the temporal stability was evaluated according to the following evaluation standard.

A: 0.90<Maintenance rate

B: 0.80<Maintenance rate≤0.90

C: 0.70<Maintenance rate≤0.80

D: 0.60<Maintenance rate≤0.70

E: Maintenance rate≤0.60

Results

The formulations of the respective treatment liquids and the test results are shown in the following table.

In the tables, the “organic basic compound” is simply described as “Basic compound”.

%, ppm, ppb, and ppt shown as a content of each component in the column of “Formulation” means % by mass, ppm by mass, ppb by mass, and ppt by mass, respectively.

The description of “Balance” indicated as the content of water means that as the finally obtained treatment liquid contains the components in the amounts shown in the column of each component and the amount of the pH adjusting agent is adjusted so as to give a predetermined pH, the residual component is water.

The description of “Inorganic acid/inorganic base” in the column of “pH Adjusting agent” indicates that an inorganic acid (H₃PO₄) or an inorganic base (KOH) as the pH adjusting agent is added in the amount so that the pH of the treatment liquid is the one as described in the column of “pH”. The description of “DBU 0.1%” in Examples 20 and 55 indicates that 1,8-diazabicyclo[5.4.0]undecene-7 as the pH adjusting agent is added in the amount of 0.1% by mass with respect to the total mass of the treatment liquid.

The column of “HA/Surfactant” means a mass ratio of the content of the hydroxylamine compound to the content of the surfactant in the treatment liquid (Content of hydroxylamine compound/Content of surfactant).

The column of “Basic compound/surfactant” means a mass ratio of the content of the organic basic compound to the content of the surfactant in the treatment liquid (Content of organic basic compound/content of surfactant).

The column of “Co ER” and the column of “W ER” mean the etching rates for W and Co, respectively, of each treatment liquid.

TABLE 1 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-1 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 3.1 Balance 1 10.0% 1.0% 40% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 2 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.7 Balance 3 10.0% 1.0% 70% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 4 10.0% 1.0% 85.0% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.4 Balance 5 0.5% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 6 1.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.7 Balance 7 3.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.7 Balance 8 5.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 9 8.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.4 Balance 10 12.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.8 Balance 11 15.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 2.4 Balance 12 20.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 3.5 Balance 13 25.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.9 Balance 14 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.8 Balance 15 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.3 Balance 16 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.4 Balance 17 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.9 Balance 18 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 19 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-1 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 16 15 C C D D 1 acid/inorganic base Example Inorganic 11 100 10 4 4 B A B B 2 acid/inorganic base Example Inorganic 11 100 10 3 4 B B B B 3 acid/inorganic base Example Inorganic 11 100 10 3 5 D D B B 4 acid/inorganic base Example Inorganic 11 5 10 1 3 D D B B 5 acid/inorganic base Example Inorganic 11 10 10 2 3 C C B B 6 acid/inorganic base Example Inorganic 11 30 10 3 4 C C B B 7 acid/inorganic base Example Inorganic 11 50 10 3 4 C C B B 8 acid/inorganic base Example Inorganic 11 80 10 3 5 B B B B 9 acid/inorganic base Example Inorganic 11 120 10 6 8 B A B B 10 acid/inorganic base Example Inorganic 11 150 10 8 10 B A B B 11 acid/inorganic base Example Inorganic 11 200 10 12 12 B B B B 12 acid/inorganic base Example Inorganic 11 250 10 15 20 B B B B 13 acid/inorganic base Example Inorganic 8 100 10 16 3 D D B B 14 acid/inorganic base Example Inorganic 9 100 10 14 4 C C B B 15 acid/inorganic base Example Inorganic 10 100 10 8 5 C C B B 16 acid/inorganic base Example Inorganic 12 100 10 4 10 B B B B 17 acid/inorganic base Example Inorganic 13 100 10 3 16 B B B B 18 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 19 acid/inorganic base

TABLE 2 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-2 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 1 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 20 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 21 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 2 Sol. 16 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 22 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 16 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 23 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 3 Sol. 16 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 24 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 25 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 26 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 4 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 27 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 5 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 28 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 29 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 6 Sol. 16 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 30 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 16 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 31 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 7 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 32 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-2 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example DBU 0.1% 11 100 11 4 8 B A B B 20 Example Inorganic 11 100 10 4 8 B A B B 21 acid/inorganic base Example Inorganic 11 100 10 5 4 B A B B 22 acid/inorganic base Example Inorganic 11 100 10 5 4 B A B B 23 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 24 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 25 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 26 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 27 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 28 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 29 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 30 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 31 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 32 acid/inorganic base

TABLE 3 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-3 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 7 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 33 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA TMAH Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 34 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 35 10.0% 1.0% 65% 5% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 36 10.0% 1.0% 55% 15% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 37 10.0% 1.0% 45% 25% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 38 10.0% 1.0% 35% 35% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 39 10.0% 1.0% 30% 40% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 01 Sol. 11 Surf 05 Chem. 01 Chem. 02 0.9 Balance 40 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 41 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 42 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 43 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 44 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 45 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 46 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.3 Balance 47 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 05 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 48 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 05 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 49 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-3 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 6 B A B B 33 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 34 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 35 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 36 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 37 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 38 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 39 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 40 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 41 acid/inorganic base Example Inorganic 11 100 10 3 8 B A B B 42 acid/inorganic base Example Inorganic 11 100 10 3 8 B A B B 43 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 44 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 45 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 46 acid/inorganic base Example Inorganic 11 100 10 5 8 B A B B 47 acid/inorganic base Example Inorganic 11 100 10 3 8 B A B B 48 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 49 acid/inorganic base

TABLE 4 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-4 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 2 Sol. 05 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 50 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 05 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 51 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 05 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 52 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 05 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 53 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 05 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 54 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 05 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 55 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 05 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 56 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 06 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 57 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 06 Surf. 05 Chem. 01 Chem. 02 1.3 Balance 58 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 06 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 59 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 06 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 60 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 06 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 61 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 06 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 62 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 06 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 63 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 06 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 64 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 06 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 65 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 07 Surf 05 Chem. 01 Chem. 02 1.1 Balance 66 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-4 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 7 B A B B 50 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 51 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 52 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 53 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 54 acid/inorganic base Example DBU 0.1% 11 100 11 4 7 B A B B 55 Example Inorganic 11 100 10 3 6 B A B B 56 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 57 acid/inorganic base Example Inorganic 11 100 10 5 8 B A B B 58 acid/inorganic base Example Inorganic 11 100 10 3 8 B A B B 59 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 60 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 61 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 62 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 63 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 64 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 65 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 66 acid/inorganic base

TABLE 5 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-5 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 1 Sol. 07 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 67 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 07 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 68 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 07 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 69 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 07 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 70 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 07 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 71 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 07 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 72 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 07 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 73 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 07 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 74 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 10 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 75 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 10 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 76 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 10 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 77 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 78 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 05 Chem. 01. Chem. 02 1.1 Balance 79 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 10 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 80 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 10 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 81 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 10 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 82 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 10 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 83 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-5 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 5 6 B A B B 67 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 68 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 69 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 70 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 71 acid/inorganic base Example Inorganic 11 100 10 3 8 B A B B 72 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 73 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 74 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 75 acid/inorganic base Example Inorganic 11 100 10 4 8 B A B B 76 acid/inorganic base Example Inorganic 11 100 10 5 6 B A B B 77 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 78 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 79 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 80 acid/inorganic base Example Inorganic 11 100 10 4 4 B A B B 81 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 82 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 83 acid/inorganic base

TABLE 6 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-6 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA TMAH Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 84 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 85 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 86 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 87 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 88 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 89 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 90 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 91 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 92 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 12 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 93 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 12 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 94 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 12 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 95 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 12 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 96 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 12 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 97 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 12 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 98 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 12 Surf. 05 Chem. 01 Chem. 02 1.3 Balance 99 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 12 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 100 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-6 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 7 B A B B 84 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 85 acid/inorganic base Example Inorganic 11 100 10 4 8 B A B B 86 acid/inorganic base Example Inorganic 11 100 10 5 6 B A B B 87 acid/inorganic base Example Inorganic 11 100 10 5 6 B A B B 88 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 89 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 90 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 91 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 92 acid/inorganic base Example Inorganic 11 100 10 4 8 B A B B 93 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 94 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 95 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 96 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 97 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 98 acid/inorganic base Example Inorganic 11 100 10 5 8 B A B B 99 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 100 acid/inorganic base

TABLE 7 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-7 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 7 Sol. 12 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 101 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 13 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 102 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 13 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 103 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 13 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 104 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 13 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 105 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 13 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 106 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 13 Surf. 05 Chem, 01 Chem. 02 1.0 Balance 107 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 13 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 108 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 13 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 109 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 13 Surf. 05 Chem. 01 Chem. 02 1.3 Balance 110 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Surf 05 Chem. 01 Chem. 02 0.8 Balance 111 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 14 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 112 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 14 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 113 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 114 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 115 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 14 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 116 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 14 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 117 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-7 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 6 B A B B 101 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 102 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 103 acid/inorganic base Example Inorganic 11 100 10 4 8 B A B B 104 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 105 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 106 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 107 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 108 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 109 acid/inorganic base Example Inorganic 11 100 10 5 8 B A B B 110 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 111 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 112 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 113 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 114 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 115 acid/inorganic base Example Inorganic 11 100 10 4 8 B A B B 116 acid/inorganic base Example Inorganic 11 100 10 5 6 B A B B 117 acid/inorganic base

TABLE 8 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-8 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 6 Sol. 14 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 118 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 14 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 119 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 120 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 15 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 121 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 15 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 122 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 123 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 124 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 15 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 125 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 15 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 126 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 15 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 127 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Surf. 05 Chem. 01 Chem. 02 1.3 Balance 128 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 129 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 130 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 16 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 131 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 132 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 133 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 134 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 14 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 135 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-8 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 3 5 B A B B 118 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 119 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 120 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 121 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 122 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 123 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 124 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 125 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 126 acid/inorganic base Example Inorganic 11 100 10 4 8 B A B B 127 acid/inorganic base Example Inorganic 11 100 10 5 8 B A B B 128 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 129 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 130 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 131 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 132 acid/inorganic base Example Inorganic 11 100 10 5 6 B A B B 133 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 134 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 135 acid/inorganic base

TABLE 9 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-9 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 2 Sol. 14 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 136 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 137 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 138 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 14 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 139 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 14 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 140 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 14 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 141 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 14 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 142 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 143 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 15 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 144 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 2 Sol. 15 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 145 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 146 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 147 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 15 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 148 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 15 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 149 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 15 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 150 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 151 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 152 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-9 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 7 B A B B 136 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 137 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 138 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 139 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 140 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 141 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 142 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 143 acid/inorganic base Example Inorganic 11 100 10 5 6 B A B B 144 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 145 acid/inorganic base Example Inorganic 11 100 10 4 5 B A B B 146 acid/inorganic base Example Inorganic 11 100 10 4 5 B A B B 147 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 148 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 149 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 150 acid/inorganic base Example Inorganic 11 100 10 4 7 B A B B 151 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 152 acid/inorganic base

TABLE 10 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-10 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 1 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 153 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 1 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 154 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 2 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 155 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA . Amine 2 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 156 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 3 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 157 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 158 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 4 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 159 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 4 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 160 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 5 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 161 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 5 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 162 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 6 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 163 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 6 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 164 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA Amine 7 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 165 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-10 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 8 B A B B 153 acid/inorganic base Example Inorganic 11 100 10 4 8 B A B B 154 acid/inorganic base Example Inorganic 11 100 10 5 4 B A B B 155 acid/inorganic base Example Inorganic 11 100 10 5 4 B A B B 156 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 157 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 158 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 159 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 160 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 161 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 162 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 163 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 164 acid/inorganic base Example Inorganic 11 100 10 4 6 B A B B 165 acid/inorganic base

TABLE 11 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-11 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 7 Sol. 16 Sol. 11 Surf. 05 Chem. 01 Chem. 02 1.0 Balance 166 10.0% 0.5% 60% 10% 0.1% 10 ppt 10 ppt TMAH 0.5% Example HA TMAH Sol. 02 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 167 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 03 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 168 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 04 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 169 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 08 Surf. 05 Chem. 01 Chem. 02 0.9 Balance 170 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 09 Surf. 05 Chem. 01 Chem. 02 0.8 Balance 171 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 17 Surf. 05 Chem. 01 Chem. 02 1.1 Balance 172 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 01 1.0 Balance 173 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 02 2.1 Balance 174 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 03 2.1 Balance 175 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 04 1.8 Balance 176 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 177 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 178 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 08 0.8 Balance 179 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 09 Chem. 06 Chem. 07 0.8 Balance 180 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 181 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 11 Chem. 08 Chem. 09 0.6 Balance 182 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 12 Chem. 01 Chem. 10 0.8 Balance 183 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-11 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 6 B A B B 166 acid/inorganic base Example Inorganic 11 100 10 3 6 B A B B 167 acid/inorganic base Example Inorganic 11 100 10 4 8 B A B B 168 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 169 acid/inorganic base Example Inorganic 11 100 10 4 5 B A B B 170 acid/inorganic base Example Inorganic 11 100 10 3 5 B A B B 171 acid/inorganic base Example Inorganic 11 100 10 5 6 B A B B 172 acid/inorganic base Example Inorganic 11 100 10 4 6 C B B B 173 acid/inorganic base Example Inorganic 11 100 10 9 12 C B B B 174 acid/inorganic base Example Inorganic 11 100 10 12 9 C B B B 175 acid/inorganic base Example Inorganic 11 100 10 10 8 C B B B 176 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 177 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 178 acid/inorganic base Example Inorganic 11 100 10 5 3 B A B B 179 acid/inorganic base Example Inorganic 11 100 10 5 3 B A B B 180 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 181 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 182 acid/inorganic base Example Inorganic 11 100 10 5 3 B A B B 183 acid/inorganic base

TABLE 12 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-12 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA TMAH Sol. 01 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 184 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 185 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 15 0.5 Balance 186 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 16 1.6 Balance 187 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 17 1.9 Balance 188 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 18 2.4 Balance 189 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 19 1.6 Balance 190 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.3 Balance 191 10.0% 1.0% 60% 0.01% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 3.7 Balance 192 10.0% 1.0% 60% 0.0085% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 2.6 Balance 193 10.0% 1.0% 60% 0.0045% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 194 1.0% 1.0% 60% 2% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 195 0.5% 1.0% 60% 1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 196 10.0% 0.5% 60% 1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.4 Balance 197 10.0% 0.5% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 198 5.0% 0.5% 60% 0.1% 10 ppt 10 ppt HAS 5% Example HA TMAH Sol. 01 Surf. 06 Chem. 03 Chem. 02 0.5 Balance 199 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 07 Chem. 04 Chem. 05 0.6 Balance 200 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 08 0.3 Balance 201 10.0% 1.0% 60% 0.1% Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-12 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 2 B A B B 184 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 185 acid/inorganic base Example Inorganic 11 100 10 3 2 C B B B 186 acid/inorganic base Example Inorganic 11 100 10 10 6 C B B B 187 acid/inorganic base Example Inorganic 11 100 10 12 7 C B B B 188 acid/inorganic base Example Inorganic 11 100 10 15 9 C B B B 189 acid/inorganic base Example Inorganic 11 100 10 10 6 C B B B 190 acid/inorganic base Example Inorganic 11 1,000 100 8 5 B A B B 191 acid/inorganic base Example Inorganic 11 1,176 118 16 21 D C B B 192 acid/inorganic base Example Inorganic 11 2,222 222 21 5 D C D D 193 acid/inorganic base Example Inorganic 11 0.5 0.5 8 4 D D C D 194 acid/inorganic base Example Inorganic 11 0.5 1 8 4 C D C C 195 acid/inorganic base Example Inorganic 11 10 0.5 8 4 D C C D 196 acid/inorganic base Example Inorganic 11 100 5 8 4 C B B D 197 acid/inorganic base Example Inorganic 11 100 5 8 4 C B B D 198 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 199 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 200 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 201 acid/inorganic base

TABLE 13 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-13 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA TMAH Sol. 01 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 202 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 203 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 204 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.2 Balance 205 10.0% 1.0% 60% 0.05% 10 ppt 20 ppt Surf. 06 Chem. 03 0.05% 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 206 10.0% 1.0% 60% 0.05% 10 ppt 10 ppt Surf. 07 Chem. 04 Chem. 05 0.05% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.6 Balance 207 10.0% 1.0% 60% 0.05% 10 ppt 10 ppt Surf. 08 0.05% Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.3 Balance 208 10.0% 1.0% 60% 0.05% 10 ppt 10 ppt Surf. 09 Chem. 06 Chem. 07 0.05% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 209 10.0% 1.0% 60% 0.05% 20 ppt 10 ppt Surf. 10 Chem. 05 0.05% 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 210 10.0% 1.0% 60% 0.05% 10 ppt 10 ppt Surf. 11 Chem. 08 Chem. 09 0.05% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 211 10.0% 1.0% 60% 0.05% 20 ppt 10 ppt Surf. 12 Chem. 10 0.05% 10 ppt Example HA TBAH Sol. 01 Surf. 06 Chem. 03 Chem. 02 0.5 Balance 212 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TBAH Sol. 01 Surf. 07 Chem. 04 Chem. 05 0.6 Balance 213 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-13 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 3 2 B A B B 202 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 203 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 204 acid/inorganic base Example Inorganic 11 100 5 8 4 B A B B 205 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 206 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 207 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 208 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 209 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 210 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 211 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 212 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 213 acid/inorganic base

TABLE 14 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-14 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA TBAH Sol. 01 Surf. 08 0.3 Balance 214 10.0% 1.0% 60% 0.1% Example HA TBAH Sol. 01 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 215 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TBAH Sol. 01 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 216 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TBAH Sol. 01 Surf. 11 Chem. 08 Chem. 05 0.5 Balance 217 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TBAH Sol. 01 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 218 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TBAH Sol. 01 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 219 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TBAH Sol. 01 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 220 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA BeTMAH Sol. 01 Surf. 06 Chem. 03 Chem. 02 0.5 Balance 221 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA BeTMAH Sol. 01 Surf. 07 Chem. 04 Chem. 05 0.6 Balance 222 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA BeTMAH Sol. 01 Surf. 08 0.3 Balance 223 10.0% 1.0% 60% 0.1% Example HA BeTMAH Sol. 01 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 224 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA BeTMAH Sol. 01 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 225 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA BeTMAH Sol. 01 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 226 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA BeTMAH Sol. 01 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 227 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA BeTMAH Sol. 01 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 228 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA BeTMAH Sol. 01 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 229 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 230 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Surf. 07 Chem. 04 Chem. 05 0.3 Balance 231 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Surf. 08 0.3 Balance 232 10.0% 1.0% 60% 0.1% Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-14 agent pH surfactant surfactant (Å/min) (Å/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 2 1 B A B B 214 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 215 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 216 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 217 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 218 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 219 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 220 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 221 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 222 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 223 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 224 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 225 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 226 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 227 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 228 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 229 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 230 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 231 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 232 acid/inorganic base

TABLE 15 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-15 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 3 Sol. 01 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 233 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Surf. 10 Chem. 01 Chem. 05 0.6 Balance 234 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Surf. 11 Chem. 08 Chem. 09 0.3 Balance 235 10.0% 1.0% 60% 0.1% 10 pp 10 ppt Example HA Amine 3 Sol. 01 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 236 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Surf. 13 Chem. 01 Chem. 07 0.5 Balance 237 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 238 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Surf. 06 Chem. 03 Chem. 02 0.5 Balance 239 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Surf. 07 Chem. 04 Chem. 05 0.6 Balance 240 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Surf. 08 0.5 Balance 241 10.0% 1.0% 60% 0.1% Example HA Amine 7 Sol. 01 Surf. 09 Chem. 06 Chem. 07 0.6 Balance 242 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Surf. 10 Chem. 01 Chem. 05 0.3 Balance 243 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 244 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 245 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 246 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 247 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 248 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 07 Chem. 04 Chem. 05 0.3 Balance 249 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 08 0.3 Balance 250 10.0% 1.0% 60% 10% 0.1% Example HA TMAH Sol. 01 Sol. 11 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 251 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-15 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 3 2 B A B B 233 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 234 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 235 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 236 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 237 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 238 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 239 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 240 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 241 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 242 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 243 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 244 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 245 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 246 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 247 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 248 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 249 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 250 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 251 acid/inorganic base

TABLE 16 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-16 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA TMAH Sol. 01 Sol. 11 Surf. 10 Chem. 01 Chem. 05 0.6 Balance 252 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 11 Chem. 08 Chem. 09 0.3 Balance 253 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 254 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 13 Chem. 01 Chem. 07 0.5 Balance 255 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Sol. 11 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 256 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 257 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 258 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 08 0.6 Balance 259 10.0% 1.0% 60% 10% 0.1% Example HA Amine 3 Sol. 01 Sol. 11 Surf. 09 Chem. 06 Chem. 07 0.3 Balance 260 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 10 Chem. 01 Chem. 05 0.3 Balance 261 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 262 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 12 Chem. 01 Chem. 10 0.6 Balance 263 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 13 Chem. 01 Chem. 07 0.3 Balance 264 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 01 Sol. 11 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 265 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Sol. 11 Surf. 06 Chem. 03 Chem. 02 0.5 Balance 266 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Sol. 11 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 267 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Sol. 11 Surf. 08 0.5 Balance 268 10.0% 1.0% 60% 10% 0.1% Example HA Amine 7 Sol. 01 Sol. 11 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 269 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Sol. 11 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 270 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-16 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 2 B A B B 252 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 253 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 254 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 255 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 256 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 257 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 258 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 259 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 260 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 261 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 262 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 263 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 264 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 265 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 266 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 267 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 268 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 269 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 270 acid/inorganic base

TABLE 17 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-17 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 7 Sol. 01 Sol. 11 Surf. 11 Chem. 08 Chem. 09 0.6 Balance 271 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Sol. 11 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 272 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Sol. 11 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 273 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 01 Sol. 11 Surf. 14 Chem. 03 Chem. 11 0.3 Balance 274 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 05 Surf. 06 Chem. 03 Chem. 02 0.3 Balance 275 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 05 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 276 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 05 Surf. 08 0.6 Balance 277 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 05 Surf. 09 Chem. 06 Chem. 07 0.3 Balance 278 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 05 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 279 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 05 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 280 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 05 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 281 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 05 Surf. 13 Chem. 01 Chem. 07 0.5 Balance 282 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 05 Surf. 14 Chem. 03 Chem. 11 0.6 Balance 283 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 05 Surf. 06 Chem. 03 Chem. 02 0.3 Balance 284 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 05 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 285 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 05 Surf. 08 0.6 Balance 286 10.0% 1.0% 60% 0.1% Example HA Amine 3 Sol. 05 Surf. 09 Chem. 06 Chem. 07 0.3 Balance 287 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 05 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 288 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 05 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 289 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-17 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 2 B A B B 271 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 272 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 273 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 274 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 275 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 276 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 277 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 278 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 279 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 280 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 281 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 282 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 283 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 284 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 285 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 286 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 287 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 288 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 289 acid/inorganic base

TABLE 18 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-18 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 3 Sol. 05 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 290 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 05 Surf. 13 Chem. 01 Chem. 07 0.5 Balance 291 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 05 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 292 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 05 Surf. 06 Chem. 03 Chem. 02 0.5 Balance 293 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 05 Surf. 07 Chem. 04 Chem. 05 0.6 Balance 294 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 05 Surf. 08 0.5 Balance 295 10.0% 1.0% 60% 0.1% Example HA Amine 7 Sol. 05 Surf. 09 Chem. 06 Chem. 07 0.6 Balance 296 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 05 Surf. 10 Chem. 01 Chem. 05 0.3 Balance 297 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 05 Surf. 11 Chem. 08 Chem. 09 0.3 Balance 298 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 05 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 299 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 05 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 300 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 05 Surf. 14 Chem. 03 Chem. 11 0.3 Balance 301 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 10 Surf. 06 Chem. 03 Chem. 02 0.3 Balance 302 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 10 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 303 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 10 Surf. 08 0.5 Balance 304 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 10 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 305 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 10 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 306 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 10 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 307 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 10 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 308 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-18 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 3 2 B A B B 290 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 291 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 292 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 293 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 294 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 295 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 296 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 297 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 298 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 299 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 300 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 301 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 302 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 303 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 304 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 305 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 306 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 307 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 308 acid/inorganic base

TABLE 19 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-19 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA TMAH Sol. 10 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 309 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 10 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 310 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 311 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 07 Chem. 04 Chem. 05 0.3 Balance 312 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 08 0.3 Balance 313 10.0% 1.0% 60% 0.1% Example HA Amine 3 Sol. 10 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 314 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 10 Chem. 01 Chem. 05 0.3 Balance 315 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 11 Chem. 08 Chem. 09 0.3 Balance 316 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 317 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 318 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 10 Surf. 14 Chem. 03 Chem. 11 0.3 Balance 319 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 10 Surf. 06 Chem. 03 Chem. 02 0.3 Balance 320 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 10 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 321 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 10 Surf. 08 0.5 Balance 322 10.0% 1.0% 60% 0.1% Example HA Amine 7 Sol. 10 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 323 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 10 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 324 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 10 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 325 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 10 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 326 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 10 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 327 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-19 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 2 B A B B 309 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 310 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 311 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 312 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 313 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 314 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 315 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 316 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 317 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 318 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 319 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 320 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 321 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 322 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 323 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 324 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 325 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 326 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 327 acid/inorganic base

TABLE 20 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-20 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 7 Sol. 10 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 328 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 329 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Surf. 07 Chem. 04 Chem. 05 0.3 Balance 330 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Surf. 08 0.3 Balance 331 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 14 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 332 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Surf. 10 Chem. 01 Chem. 05 0.6 Balance 333 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Surf. 11 Chem. 08 Chem. 09 0.3 Balance 334 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Surf. 12 Chem. 01 Chem. 10 0.3 Balance 335 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Surf. 13 Chem. 01 Chem. 07 0.3 Balance 336 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 14 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 337 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 338 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 07 Chem. 04 Chem. 05 0.3 Balance 339 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 08 0.3 Balance 340 10.0% 1.0% 60% 0.1% Example HA Amine 3 Sol. 14 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 341 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 342 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 343 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 344 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 13 Chem. 01 Chem. 07 0.5 Balance 345 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 14 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 346 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-20 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 3 2 B A B B 328 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 329 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 330 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 331 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 332 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 333 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 334 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 335 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 336 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 337 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 338 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 339 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 340 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 341 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 342 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 343 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 344 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 345 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 346 acid/inorganic base

TABLE 21 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-21 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 7 Sol. 14 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 347 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 14 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 348 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 14 Surf. 08 0.6 Balance 349 10.0% 1.0% 60% 0.1% Example HA Amine 7 Sol. 14 Surf. 09 Chem. 06 Chem. 07 0.3 Balance 350 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 14 Surf. 10 Chem. 01 Chem. 05 0.3 Balance 351 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 14 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 352 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 14 Surf. 12 Chem. 01 Chem. 10 0.6 Balance 353 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 14 Surf. 13 Chem. 01 Chem. 07 0.3 Balance 354 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 14 Surf. 14 Chem. 03 Chem, 11 0.5 Balance 355 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 356 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Surf. 07 Chem. 04 Chem. 05 0.3 Balance 357 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Surf. 08 0.3 Balance 358 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 15 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 359 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 360 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 361 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 362 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Surf. 13 Chem. 01 Chem. 07 0.5 Balance 363 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 15 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 364 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 365 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-21 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 4 2 B A B B 347 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 348 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 349 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 350 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 351 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 352 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 353 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 354 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 355 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 356 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 357 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 358 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 359 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 360 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 361 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 362 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 363 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 364 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 365 acid/inorganic base

TABLE 22 Formulation Metal- Alcohol - Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-22 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 3 Sol. 15 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 366 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Surf. 08 0.6 Balance 367 10.0% 1.0% 60% 0.1% Example HA Amine 3 Sol. 15 Surf. 09 Chem. 06 Chem. 07 0.3 Balance 368 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Surf. 10 Chem. 01 Chem. 05 0.3 Balance 369 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 370 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Surf. 12 Chem. 01 Chem. 10 0.6 Balance 371 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 372 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 15 Surf. 14 Chem. 03 Chem. 11 0.3 Balance 373 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Surf. 06 Chem. 03 Chem. 02 0.3 Balance 374 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 375 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Surf. 08 0.5 Balance 376 10.0% 1.0% 60% 0.1% Example HA Amine 7 Sol. 15 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 377 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 378 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 379 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 380 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 381 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 15 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 382 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 383 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Surf. 07 Chem. 04 Chem. 05 0.3 Balance 384 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-22 agent pH surfactant surfactant (A/min (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 3 2 B A B B 366 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 367 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 368 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 369 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 370 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 371 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 372 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 373 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 374 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 375 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 376 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 377 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 378 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 379 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 380 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 381 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 382 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 383 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 384 acid/inorganic base

TABLE 23 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-23 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA TMAH Sol. 16 Surf. 08 0.3 Balance 385 10.0% 1.0% 60% 0.1% Example HA TMAH Sol. 16 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 386 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Surf. 10 Chem. 01 Chem. 05 0.6 Balance 387 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Surf. 11 Chem. 08 Chem. 09 0.3 Balance 388 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 389 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 390 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Surf. 14 Chem. 03 Chem. 11 0.3 Balance 391 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Surf. 06 Chem. 03 Chem. 02 0.3 Balance 392 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 393 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Surf. 08 0.5 Balance 394 10.0% 1.0% 60% 0.1% Example HA Amine 3 Sol. 16 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 395 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 396 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Surf. 11 Chem. 08 Chem. 09 0.5 Balance 397 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 398 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 399 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 400 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Surf. 06 Chem. 03 Chem. 02 0.6 Balance 401 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Surf. 07 Chem. 04 Chem. 05 0.3 Balance 402 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Surf. 08 0.3 Balance 403 10.0% 1.0% 60% 0.1% Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-23 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 2 1 B A B B 385 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 386 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 387 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 388 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 389 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 390 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 391 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 392 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 393 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 394 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 395 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 396 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 397 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 398 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 399 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 400 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 401 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 402 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 403 acid/inorganic base

TABLE 24 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-24 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 7 Sol. 16 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 404 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Surf. 10 Chem. 01 Chem. 05 0.6 Balance 405 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Surf. 11 Chem. 08 Chem. 09 0.6 Balance 406 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Surf. 12 Chem. 01 Chem. 10 0.3 Balance 407 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Surf. 13 Chem. 01 Chem. 07 0.3 Balance 408 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 409 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Sol. 11 Surf. 06 Chem. 03 Chem. 02 0.5 Balance 410 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Sol. 11 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 411 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Sol. 11 Surf. 08 0.5 Balance 412 10.0% 1.0% 60% 10% 0.1% Example HA TMAH Sol. 16 Sol. 11 Surf. 09 Chem. 06 Chem. 07 0.5 Balance 413 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Sol. 11 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 414 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Sol. 11 Surf. 11 Chem. 08 Chem. 09 0.6 Balance 415 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Sol. 11 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 416 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Sol. 11 Surf. 13 Chem. 01 Chem. 07 0.6 Balance 417 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 16 Sol. 11 Surf. 14 Chem. 03 Chem. 11 0.3 Balance 418 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Sol. 11 Surf. 06 Chem. 03 Chem. 02 0.3 Balance 419 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Sol. 11 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 420 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Sol. 11 Surf. 08 0.6 Balance 421 10.0% 1.0% 60% 10% 0.1% Example HA Amine 3 Sol. 16 Sol. 11 Surf. 09 Chem. 06 Chem. 07 0.6 Balance 422 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-24 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 3 2 B A B B 404 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 405 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 406 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 407 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 408 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 409 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 410 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 411 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 412 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 413 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 414 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 415 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 416 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 417 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 418 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 419 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 420 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 421 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 422 acid/inorganic base

TABLE 25 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-25 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA Amine 3 Sol. 16 Sol. 11 Surf. 10 Chem. 01 Chem. 05 0.3 Balance 423 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Sol. 11 Surf. 11 Chem. 08 Chem. 09 0.3 Balance 424 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Sol. 11 Surf. 12 Chem. 01 Chem. 10 0.5 Balance 425 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Sol. 11 Surf. 13 Chem. 01 Chem. 07 0.5 Balance 426 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 3 Sol. 16 Sol. 11 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 427 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Sol. 11 Surf. 06 Chem. 03 Chem. 02 0.5 Balance 428 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Sol. 11 Surf. 07 Chem. 04 Chem. 05 0.5 Balance 429 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Sol. 11 Surf. 08 0.5 Balance 430 10.0% 1.0% 60% 10% 0.1% Example HA Amine 7 Sol. 16 Sol. 11 Surf. 09 Chem. 06 Chem. 07 0.6 Balance 431 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Sol. 11 Surf. 10 Chem. 01 Chem. 05 0.5 Balance 432 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Sol. 11 Surf. 11 Chem. 08 Chem. 09 0.6 Balance 433 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Sol. 11 Surf. 12 Chem. 01 Chem. 10 0.3 Balance 434 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Sol. 11 Surf. 13 Chem. 01 Chem. 07 0.3 Balance 435 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA Amine 7 Sol. 16 Sol. 11 Surf. 14 Chem. 03 Chem. 11 0.5 Balance 436 10.0% 1.0% 60% 10% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 0.5 Balance 437 10.0% 1.0% 60% 0.1% 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 0.5 Balance 438 10.0% 1.0% 60% 0.1% 500 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 0.6 Balance 439 10.0% 1.0% 60% 0.1% 5,000 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 0.6 Balance 440 10.0% 1.0% 60% 0.1% 100 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 0.8 Balance 441 10.0% 1.0% 60% 0.1% 5,000 ppb Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-25 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 2 1 B A B B 423 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 424 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 425 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 426 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 427 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 428 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 429 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 430 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 431 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 432 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 433 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 434 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 435 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 436 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 437 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 438 acid/inorganic base Example Inorganic 11 100 10 4 2 A A B B 439 acid/inorganic base Example Inorganic 11 100 10 4 2 A A B B 440 acid/inorganic base Example Inorganic 11 100 10 5 3 B A B B 441 acid/inorganic base

TABLE 26 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-26 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (ppb) Water Example HA TMAH Sol. 01 Surf. 05 Chem. 02 0.8 Balance 442 10.0% 1.0% 60% 0.1% 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 02 0.5 Balance 443 10.0% 1.0% 60% 0.1% 500 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 02 0.5 Balance 444 10.0% 1.0% 60% 0.1% 5,000 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 02 0.5 Balance 445 10.0% 1.0% 60% 0.1% 100 ppb Example HA TMAH Sol. 01 Surf. 05 Chem. 02 0.6 Balance 446 10.0% 1.0% 60% 0.1% 5,000 ppb Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.3 Balance 447 10.0% 1.0% 60% 0.1% 100 ppt 100 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.3 Balance 448 10.0% 1.0% 60% 0.1% 500 ppt 500 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.3 Balance 449 10.0% 1.0% 60% 0.1% 5000 ppt 5,000 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.3 Balance 450 10.0% 1.0% 60% 0.1% 100 ppb 100 ppb Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.5 Balance 451 10.0% 1.0% 60% 0.1% 5000 ppb 5,000 ppb Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.8 0.3 Balance 452 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 8 0.5 Balance 453 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 70 0.5 Balance 454 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 500 0.5 Balance 455 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 5,000 0.5 Balance 456 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 100 0.5 Balance 457 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt ppb Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1 0.5 Balance 458 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt ppm Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.005% 0.5 Balance 459 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.03%  0.3 Balance 460 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-26 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example Inorganic 11 100 10 5 3 B A B B 442 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 443 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 444 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 445 acid/inorganic base Example Inorganic 11 100 10 4 2 B A B B 446 acid/inorganic base Example Inorganic 11 100 10 2 1 A A B B 447 acid/inorganic base Example Inorganic 11 100 10 2 1 A A B B 448 acid/inorganic base Example Inorganic 11 100 10 2 1 A A B B 449 acid/inorganic base Example Inorganic 11 100 10 2 1 A A B B 450 acid/inorganic base Example Inorganic 11 100 10 3 2 B A B B 451 acid/inorganic base Example Inorganic 11 100 10 2 1 B A B B 452 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 453 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 454 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 455 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 456 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 457 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 458 acid/inorganic base Example Inorganic 11 100 10 3 2 A A B B 459 acid/inorganic base Example Inorganic 11 100 10 2 1 A A B B 460 acid/inorganic base

TABLE 27 Formulation Metal- Alcohol- Alcohol- Tertiary Alkyl containing Table Hydroxylamine Basic based based amine halide Acetic Other particles 1-27 compound compound solvent 1 solvent 2 Surfactant compound compound acid additives (PPb) Water Example 461 HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.12% 0.3 Balance 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example 462 HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.001 Balance 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example 463 HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 12 Balance 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Example 464 HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 O.A.1 0.5 Balance 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt 0.5% Example 465 HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 Red. 1 0.6 Balance 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt 0.5% Example 466 HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 Red. 2 0.3 Balance 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt 0.5% Example 467 HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 Red. 3 0.5 Balance 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt 0.5% Example 468 HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 Red. 4 0.5 Balance 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt 0.5% Example 469 HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 0.06% 0.3 Balance 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Comparative HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 5 Balance Example 1 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Comparative HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 1.5 Balance Example 2 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Comparative HA TMAH Sol. 01 5.7 Balance Example 3 10.0% 1.0% 60% Comparative HA TMAH Sol. 01 Surf. 05 Chem. 01 Chem. 02 2.9 Balance Example 4 10.0% 1.0% 60% 0.1% 10 ppt 10 ppt Evaluation Formulation Residue pH Basic Co W Defect removal Temporal Temporal Table Adjusting HA/ compound/ ER ER suppression property stability stability 1-27 agent pH surfactant surfactant (A/min) (A/min) property (0 h) (6 h) (12 h) Example 461 Inorganic 11 100 10 2 1 C A B B acid/inorganic base Example 462 Inorganic 11 100 10 3 2 D A B B acid/inorganic base Example 463 Inorganic 11 100 10 4 2 D A B B acid/inorganic base Example 464 Inorganic 11 100 10 3 2 A A A A acid/inorganic base Example 465 Inorganic 11 100 10 4 2 A A A A acid/inorganic base Example 466 Inorganic 11 100 10 2 1 A A A A acid/inorganic base Example 467 Inorganic 11 100 10 3 2 A A A A acid/inorganic base Example 468 Inorganic 11 100 10 3 2 A A A A acid/inorganic base Example 469 Inorganic 11 100 10 2 1 A A B B acid/inorganic base Comparative Inorganic 11 100 10 25 25 E C E E Example 1 acid/inorganic base Comparative Inorganic 11 100 10 6 9 E E A A Example 2 acid/inorganic base Comparative Inorganic 11 12 45 E C A A Example 3 acid/inorganic base Comparative Inorganic 7 100 10 21 8 E E A A Example 4 acid/inorganic base

Review of Results

From the results shown in the tables, it was confirmed that the problem of the present invention could be solved by using the treatment liquid of the embodiment of the present invention.

It has been confirmed that in a case where the content of the alcohol-based solvent is 50% by mass or more with respect to the total mass of the treatment liquid, the residue removal property, the defect suppression property, the anticorrosion property, and the temporal stability tend to be more excellent, and in a case where the content of the alcohol-based solvent is 80% by mass or less, the defect suppression property and the residue removal property tend to be more excellent (the results of Examples 1 to 4, and the like).

It has been confirmed that in a case where the content of the hydroxylamine compound is 1% by mass or more (more preferably 6% by mass or more) with respect to the total mass of the treatment liquid, the defect suppression property and the residue removal property of the treatment liquid tend to be more excellent.

It has been confirmed that in a case where the content of the hydroxylamine compound is 20% by mass or less (more preferably 15% by mass or less, and still more preferably 12% by mass or less) with respect to the total mass of the treatment liquid, the residue removal property and the anticorrosion property of the treatment liquid tend to be more excellent.

The Results of Examples 2, and 5 to 13, and The Like

It has been confirmed that in a case where the pH is 9 or more (more preferably 10 or more, and still more preferably more than 10), the anticorrosion property against Co, the defect suppression property, and the residue removal property of the treatment liquid tend to be more excellent.

It has been confirmed that in a case where the pH is 12 or less (more preferably less than 12), the anticorrosion property against W and the defect suppression property of the treatment liquid tend to be more excellent.

The Results of Examples 2 and 14 to 18, and The Like

It has been confirmed that in a case where a mass ratio of the content of the hydroxylamine compound to the content of the surfactant in the treatment liquid is 1 or more (more preferably 10 or more, and still more preferably 80 or more), the residue removal property, the defect suppression property, the anticorrosion property, and the temporal stability of the treatment liquid tend to be more excellent, and in a case where the mass ratio is 1,000 or less (more preferably 150 or less, and still more preferably 250 or less), the residue removal property, the defect suppression property, and the temporal stability of the treatment liquid tend to be more excellent.

The Results of Examples 2, 5 to 13, and 191 to 196, and The Like

It has been confirmed that in a case where a mass ratio of the content of the organic basic compound to the content of the surfactant in the treatment liquid is 1 or more (more preferably more than 1 and less than 118), the anticorrosion property, the defect suppression property, the residue removal property, and the temporal stability of the treatment liquid tend to be more excellent.

The Results of Examples 2, 191 to 194, and 196, and The Like

It has been confirmed that in a case where the surfactant has a nitrogen atom (preferably in a case where the surfactant is a nonionic or cationic one), the defect suppression property and the residue removal property tend to be more excellent.

The Results of Examples 2, and 173 to 190, and The Like

It was confirmed that in a case where the content of the surfactant is 1 ppm by mass or more (more preferably 85 ppm by mass or more, and still more preferably 0.01% by mass or more) and 2% by mass or less (more preferably 1% by mass or less, and still more preferably 0.1% by mass or less) with respect to the total mass of the treatment liquid, the defect suppression property, the residue removal property, and the temporal stability of the treatment liquid tend to be more excellent.

The Results of Examples 2, 191 to 194, and 196, and The Like

It was confirmed that in a case where the content of the metal-containing particles is 10 ppt by mass to 10 ppb by mass with respect to the total mass of the treatment liquid, the defect suppression property of the treatment liquid tends to be more excellent.

The Results of Examples 2, 462, and 463, and The Like

It was confirmed that in a case where the treatment liquid contains a tertiary amine compound in an amount of 50 ppt by mass to 100 ppb by mass with respect to the total mass of the treatment liquid, the defect suppression property tends to be more excellent.

The Results of Examples 2, and 437 to 441, and The Like

It was confirmed that in a case where the treatment liquid contains an alkyl halide compound in an amount of 50 ppt by mass to 100 ppb by mass with respect to the total mass of the treatment liquid, the defect suppression property tends to be more excellent.

The Results of Examples 2, and 442 to 446, and The Like

It was confirmed that in a case where the treatment liquid contains a reducing agent, the defect suppression property and the temporal stability tend to be more excellent.

The Results of Examples 2, and 465 to 468, and The Like

It was confirmed that in a case where the treatment liquid contains acetic acid in an amount of 1 ppt by mass to 0.1% by mass with respect to the total mass of the treatment liquid, the defect suppression property tends to be more excellent.

The Results of Examples 2, 452 to 461, and 469, and The Like

It was confirmed that in a case where the treatment liquid contains another organic acid, the defect suppression property and the temporal stability tend to be more excellent.

The Results of Examples 2 and 464, and The Like

It was confirmed that in a case where the addition amount of the inorganic base used as a pH adjusting agent for increasing the pH of the treatment liquid is 0.1% by mass or less with respect to the total mass of the treatment liquid, a tendency of the same results as those in a case where the pH is adjusted by adjusting the addition amount of the organic basic compound is exhibited.

The Results of Examples 20 and 55, and The Like EXPLANATION OF REFERENCES

1: substrate

2: metal layer

3: etching stop layer

4: interlayer insulating layer

5: metal hard mask

6: hole

10: laminate

11: inner wall

11 a: cross-sectional wall

11 b: bottom wall

12: dry etching residue 

What is claimed is:
 1. A treatment liquid for a semiconductor device, comprising: one or more hydroxylamine compounds selected from the group consisting of hydroxylamine and a hydroxylamine salt; an organic basic compound; an alcohol-based solvent; and a surfactant, wherein a content of the alcohol-based solvent is 40% to 85% by mass with respect to a total mass of the treatment liquid, and a pH is 8 or higher.
 2. The treatment liquid according to claim 1, wherein a content of the hydroxylamine compound is 1% to 20% by mass with respect to the total mass of the treatment liquid.
 3. The treatment liquid according to claim 1, wherein a mass ratio of a content of the hydroxylamine compound to a content of the surfactant is 1 to 1,000.
 4. The treatment liquid according to claim 1, wherein the organic basic compound includes one or more selected from the group consisting of tetramethylammonium hydroxide, tetrabutylammonium hydroxide, benzyltrimethylammonium hydroxide, tetrahydrofurfurylamine, N-(2-aminoethyl)piperazine, 1,8-diazabicyclo[5.4.0]-7-undecene, and 1,4-diazabicyclo[2.2.2]octane.
 5. The treatment liquid according to claim 1, wherein the organic basic compound contains a tertiary amine compound, the tertiary amine compound contains a tertiary amino group other than a tertiary amino group contained in a nitrogen-containing non-aromatic ring, and a content of the tertiary amine compound is 1 ppt by mass to 5 ppm by mass with respect to the total mass of the treatment liquid.
 6. The treatment liquid according to claim 1, wherein a mass ratio of a content of the organic basic compound to a content of the surfactant is 1 to
 150. 7. The treatment liquid according to claim 1, wherein the surfactant is a cationic surfactant.
 8. The treatment liquid according to claim 7, wherein the cationic surfactant contains a quaternary nitrogen atom.
 9. The treatment liquid according to claim 1, wherein the surfactant contains one or more selected from the group consisting of cetyltrimethylammonium bromide, cetylpyridinium chloride, benzethonium chloride, chlorhexidine dihydrochloride, distearyldimethylammonium chloride, benzalkonium chloride, dequalinium chloride, dodecyltrimethylammonium chloride, octadecylamine hydrochloride, and dodecylpyridinium chloride.
 10. The treatment liquid according to claim 1, wherein a content of the surfactant is 1 ppm by mass to 0.5% by mass with respect to the total mass of the treatment liquid.
 11. The treatment liquid according to claim 1, wherein the alcohol-based solvent contains an alkoxy group.
 12. The treatment liquid according to claim 1, wherein the alcohol-based solvent contains one or more selected from the group consisting of 3-methoxy-3-methyl 1-butanol, furfuryl alcohol, glycerin, 2-methyl-2,4-pentanediol, ethylene glycol, 1,2-propanediol, ethylene glycol monoethyl ether, ethylene glycol monobutyl ether, diethylene glycol monomethyl ether, diethylene glycol monoethyl ether, and dipropylene glycol monomethyl ether.
 13. The treatment liquid according to claim 1, further comprising an alkyl halide compound, wherein a content of the alkyl halide compound is 1 ppt by mass to 5 ppm by mass with respect to the total mass of the treatment liquid.
 14. The treatment liquid according to claim 1, further comprising a reducing agent.
 15. The treatment liquid according to claim 14, wherein the reducing agent is one or more reducing agents selected from the group consisting of catechol and a derivative thereof, and a mercaptan compound.
 16. The treatment liquid according to claim 1, further comprising acetic acid, wherein a content of the acetic acid is 1 ppt by mass to 0.1% by mass with respect to the total mass of the treatment liquid.
 17. The treatment liquid according to claim 1, further comprising another organic acid other than acetic acid.
 18. The treatment liquid according to claim 1, further comprising metal-containing particles, wherein the metal-containing particle contains one or more metal components selected from the group consisting of Na, Ca, Fe, and Cr, a particle diameter of the metal-containing particle is 0.02 to 0.05 μm, and a content of the metal-containing particles is 10 ppt by mass to 10 ppb by mass with respect to the total mass of the treatment liquid.
 19. The treatment liquid according to claim 1, used as a cleaning liquid for removing etching residues, a solution for removing a resist film used for pattern formation, or a cleaning liquid for removing residues from a substrate after chemical mechanical polishing.
 20. The treatment liquid according to claim 1, used for a treatment of a substrate having a metal layer containing one or more selected from the group consisting of W and Co. 